ID |
Date |
Author |
Category |
Subject |
62
|
Sat Apr 2 01:27:25 2022 |
Jan Glorius | Runs | test runs 02.04.2022 | Beam settings:
primary beam
copper stripper
I_el=300mA
U_el=205.490kV (Ohm_labs)
3.5e7 ions at injection
MSCF/ADC settings:
ch2 < Mid PMT x10
ch6 < Mid PMT x100
see attachment (setting_e142....) for detailed MSCF settings
Files/Runs [DAQ2]:
------------------new file-----------------
229Th0022.lmd
bunched beam [ESR in manip. at 7]
beam scraped using detector drives
-SA pos: 0
-NA pos: -10
-Ni pos: 40
no corresponding file in DAQ1
------------------new file-----------------
229Th0023.lmd
bunched beam [ESR in manip. at 7]
beam scraped using detector drives
-SA pos: 0
-NA pos: -10
-Ni pos: 40
laser scan active:
- steps: 21
- cycles: 5
file in DAQ1:
...7768.lmd
------------------new file-----------------
229Th0024.lmd
bunched beam [ESR in manip. at 7]
beam scraped using detector drives
-SA pos: out (-127)
-NA pos: -10
-Ni pos: 40
laser scan active:
- steps: 21
- cycles: 5
file in DAQ1:
...7770.lmd
------------------new file-----------------
229Th0025.lmd
bunched beam [ESR in manip. at 7]
beam scraped using detector drives
-SA pos: 0
-NA pos: -10
-Ni pos: 40
laser scan not:
VUPROM -> delay stop trigger ch12
file in DAQ1:
no file
no laser scan
------------------new file-----------------
229Th0026.lmd
bunched beam [ESR in manip. at 7]
beam scraped using detector drives
-SA pos: 0
-NA pos: -10
-Ni pos: 40
laser scan active:
- steps: 21
- cycles: 5
VUPROM -> delay stop trigger ch12
file in DAQ1:
...7772.lmd |
Attachment 1: setting_e142.1648855568
|
1648855568
Sat Apr 2 01:26:08 CEST 2022
e127pi:mrcc:mscf2:getGainCommon 15
e127pi:mrcc:mscf2:getShapingTimeCommon 0
e127pi:mrcc:mscf2:getThresholdCommon 200
e127pi:mrcc:mscf2:getPzCommon 255
e127pi:mrcc:mscf2:getGain1 15
e127pi:mrcc:mscf2:getGain2 10
e127pi:mrcc:mscf2:getGain3 15
e127pi:mrcc:mscf2:getGain4 15
e127pi:mrcc:mscf2:getShapingTime1 0
e127pi:mrcc:mscf2:getShapingTime2 0
e127pi:mrcc:mscf2:getShapingTime3 0
e127pi:mrcc:mscf2:getShapingTime4 1
e127pi:mrcc:mscf2:getThreshold1 255
e127pi:mrcc:mscf2:getThreshold2 2
e127pi:mrcc:mscf2:getThreshold3 200
e127pi:mrcc:mscf2:getThreshold4 200
e127pi:mrcc:mscf2:getThreshold5 222
e127pi:mrcc:mscf2:getThreshold6 2
e127pi:mrcc:mscf2:getThreshold7 200
e127pi:mrcc:mscf2:getThreshold8 200
e127pi:mrcc:mscf2:getThreshold9 222
e127pi:mrcc:mscf2:getThreshold10 255
e127pi:mrcc:mscf2:getThreshold11 255
e127pi:mrcc:mscf2:getThreshold12 255
e127pi:mrcc:mscf2:getThreshold13 100
e127pi:mrcc:mscf2:getThreshold14 255
e127pi:mrcc:mscf2:getThreshold15 255
e127pi:mrcc:mscf2:getThreshold16 255
e127pi:mrcc:mscf2:getPz1 100
e127pi:mrcc:mscf2:getPz2 100
e127pi:mrcc:mscf2:getPz3 100
e127pi:mrcc:mscf2:getPz4 100
e127pi:mrcc:mscf2:getPz5 100
e127pi:mrcc:mscf2:getPz6 100
e127pi:mrcc:mscf2:getPz7 100
e127pi:mrcc:mscf2:getPz8 100
e127pi:mrcc:mscf2:getPz9 100
e127pi:mrcc:mscf2:getPz10 100
e127pi:mrcc:mscf2:getPz11 100
e127pi:mrcc:mscf2:getPz12 100
e127pi:mrcc:mscf2:getPz13 100
e127pi:mrcc:mscf2:getPz14 100
e127pi:mrcc:mscf2:getPz15 100
e127pi:mrcc:mscf2:getPz16 100
e127pi:mrcc:mscf2:getSingleChMode 1
e127pi:mrcc:mscf2:getRcMode 1
e127pi:mrcc:mscf2:getAutoPZ 18
e127pi:mrcc:mscf2:getMultiplicityHi 8
e127pi:mrcc:mscf2:getMultiplicityLo 0
e127pi:mrcc:mscf2:getSumTrgThresh 18
e127pi:mrcc:mscf2:getBlrOn 1
e127pi:mrcc:mscf2:getCoincTime 121
e127pi:mrcc:mscf2:getThreshOffset 70
e127pi:mrcc:mscf2:getShaperOffset 35
e127pi:mrcc:mscf2:getBlrThresh 25
e127pi:mrcc:mscf2:getECLDelay 18
|
78
|
Sun Apr 3 12:31:10 2022 |
Rui-Jiu Chen, Yuri, Carsten, Ragan | Runs | Measurement of beam with different circles | Parameters of NTCAP:
1. IQ rate 20 MSamples/s
2. Carrier frequency: 245 MHz
3. RF attenuation(dB): 40
4. IF attenuation(dB): 19.9288
Data files:
Samples/record: 2^18=262144
Records/File:2^12=4096
Masterpath:
p:/E142/iq
p:/E142/sc
1. Manipulation 1:
(ESR EXP22 02 238U92 Brandau 30March22.C1.3 WAIT FOR MANIP BY. OF O)
Data A: IQ_2022-04-03_11-37-01, SC_2022-04-03_11-37-01
Data B: IQ_2022-04-03_11-46-54, SC_2022-04-03_11-47-04
2. Manipulation 2:
(ESR EXXP22 02.23U92 Brandau SOMarch22.CIS WAIT FOR MANI BY OP O )
Data A: IQ_2022-04-03_11-56-17, SC_2022-04-03_11-56-17 (Reference level 0dBm)
Data B: IQ_2022-04-03_12-03-27, SC_2022-04-03_12-03-27 (Reference level 0dBm)
Data C: IQ_2022-04-03_12-58-00, SC_2022-04-03_12-58-00 (Reference level -25dBm, record data
for long time.)\
3. Manipulation 3:
(ESR EXP22 02 23AUS2 Branda3OMarch22C1.7 WAIT FOR MANIP BY OP)
Data A: IQ_2022-04-03_12-11-11, SC_2022-04-03_12-11-11 (Reference level 0dBm)
Data B: IQ_2022-04-03_12-18-49, SC_2022-04-03_12-18-49 (Reference level 0dBm)
4. Manipulation 1+2+3. Measuring two injections.
Data A: IQ_2022-04-03_12-26-47, SC_2022-04-03_12-26-47(REFERENCEL LEVEL 0dBm)
Data B: IQ_2022-04-03_12-26-55, SC_2022-04-03_12-26-55(Reference level -25dBm)
Preliminary result: comparison between manipulation (MP) 1,2,3 and full manipulation
|
Attachment 1: 202204031422502.jpg
|
|
Attachment 2: 202204031422501.jpg
|
|
Attachment 3: 20220403142250.jpg
|
|
Attachment 6: Comparison_between_manipulations.pdf
|
|
86
|
Mon Apr 4 09:10:44 2022 |
Ragan, Yuri, Rui-Jiu | Runs | Measurement | NTCAP is taking data with the beam with a stop at manipulation 5 (taking all the fragments).
1)
Start time: 09:07
Stop time: 11:31
Reference level: -25 dBm
SC_2022-04-04_09-07-57
IQ_2022-04-04_09-07-57
2)
Start time: 11:35
Stop time: 14:00
Reference level: -25 dBm
SC_2022-04-04_11-35-25
IQ_2022-04-04_11-35-25 |
104
|
Tue Apr 5 23:55:11 2022 |
Carsten | Runs | Long time measurment with NTCAP | Settings:
Center: 2242.5MHz
RefLevel: -25dB
Rate 15 MIQs
File Numbers: 2022_04_05 23-46-22
Please note that the file started one minute earlier had wrong settings.
File contains also injection, paused in machine #5: ramped to central orbit / not yet bunched.
The measurement does not represent the later settings since here hte 229Th89+ is still on a too inner orbit (cf. previous post).
The beam settings can also be found in the previous post. |
110
|
Wed Apr 6 14:52:29 2022 |
Rodolfo | Runs | Scraping the ion beam | We are T-scraping the ion beam. |
121
|
Thu Apr 7 02:32:29 2022 |
all on shift | Runs | First Scans 322-320nm | Laser scanning from 322-320 steps 0.01nm/s
DAQ1: lxg1927:/data.local2/BeamTimeTh22/
DAQ2: lxg0155:/data.local2/E142/
LMD file name DAQ1:229Thor
LMD file name DAQ2:229Th
Time | SIS-intensity | cooler-HV | LMD-DAQ1 | LMD-DAQ2
|
02.30 | ? | ? | Th227781-Th227784 | 0027-0028
|
03.03 | 1.75e9 | 209648 | 7785-7787 | 0029-0030
|
03:28 | 1.7e9 | 209648 | 7788 | 0031 (stopped during scan)
|
Break - fixing cables, Elog ID: 125
|
04:00 - problems with UNILAC, stopping for now.
|
Apparently not so bad problems. we can continue.
|
Mesytek PS of xuv-detector crashed, can only be restarted from inside the ESR by turning the crate on and off.
|
05.20 | 1.23e9 | 209646 | 7791-7794 | 0035-0038
|
05.52 | 1.5e9 | 209648 | 7795-7797 | 0039-0042
|
06.24 | 1.5e9 | 209642 | 7798-7800 | 0043-0046 | 1 sec waiting at each laser frequency (dwell time 30)
|
07.36 | xx e9 | 209 xx | 7803-7804 | 0047-0050 | problems with DAQ 1 and DAQ2
|
07.52 | xx e9 | 209646 | 7805-7809 | 0051-0055 | DAQs started again | 5 sec waiting at each laser frequency (dwell time 150)
|
08.30 | e9 | 209 xx | 7810-78 | 0056-00 | DAQs started again | 5 sec waiting at each laser frequency (dwell time 150)
|
|
|
151
|
Fri Apr 8 06:53:29 2022 |
Ragan | Runs | NTCAP data taking | NTCAP is taking data since 07.04.2022 23:53:47
Carrier Frequency: 242.2 M
IQ Rate (S/s): 10 M
Reference level (dBm): -30
SC_2022-04-07_23-53-47
\IQ_2022-04-07_23-53-47 |
Attachment 1: IMG_0936.jpg
|
|
155
|
Fri Apr 8 09:32:32 2022 |
Ragan | Runs | NTCAP stopped | Since there is no beam, NTCAP is stopped.
Carrier Frequency: 242.2 M
IQ Rate (S/s): 10 M
Reference level (dBm): -30
SC_2022-04-07_23-53-47
\IQ_2022-04-07_23-53-47 |
157
|
Fri Apr 8 09:39:04 2022 |
Ragan | Runs | NTCAP started | Carrier Frequency: 242.2 M
IQ Rate (S/s): 10 M
Reference level (dBm): -30
SC_2022-04-08_09-39-33
\IQ_2022-04-08_09-39-33 |
158
|
Fri Apr 8 10:44:55 2022 |
Ragan, Yuri, Danyal, Sergey | Runs | NTCAP stopped | NTCAP is stopped. Sergey will now set an ion bunch instead of two in the ESR.
SC_2022-04-08_09-39-33
\IQ_2022-04-08_09-39-33 |
161
|
Fri Apr 8 12:04:13 2022 |
Ragan | Runs | NTCAP started | NTCAP is started for the data taking.
Carrier Frequency: 242.02 M
IQ Rate (S/s): 10 M
Reference level (dBm): -30
SC_2022-04-08_12-04-28
\IQ_2022-04-08_12-03-50 |
Attachment 1: IMG_0947.jpg
|
|
166
|
Fri Apr 8 15:39:36 2022 |
all | Runs | first data after timing set up | started taking data again
started at 15:40
h=1
file names
229Th7821 DAQ 1 607 MB
229Th0082 DAQ 2 820 MB
stopped at 16:25
The laser was not really properly scanned.
This was mainly a test run to see if everything was working. |
181
|
Sat Apr 9 06:25:22 2022 |
Max, Kristian | Runs | morning shift runs | DAQ1: lxg1927:/data.local2/BeamTimeTh22/
DAQ2: lxg0155:/data.local2/E142/
LMD file name DAQ1:229Thor
LMD file name DAQ2:229Th
Shottky marker pos: 243.973MHz
Time | SIS-intensity | cooler-HV | LMD-DAQ1 start-end | LMD-DAQ2 start-end | scan range(nm) | step width(nm) | dwell time(s) | comments
|
xx:xx | x.xe9 | 209xxx | 00xx | 78xx | 32x.x - 32x.x | 0.01 | x | sketch for filling the table
|
06:40 | 1.7e9 | 209619 | 0098-0099 | 7836 | 323.2 - 321.2 | 0.002 | 4s | laser pulse energy is @ ~12mJ after SHG
|
09:35 | 1.4e9 | 209624 | 0101-0101 | 7838-7838 | 323.2 - 322.8 | 0.002 | 3s | only 0.5nm range, WM power + coupling tuned to scan range, Konstantin updated LV code to hold Cobra Set WL value, aborted LV readout problem
|
11:25 | 1.0e9 | 209622 | 0102 - 102 | 7839-7839 | 323.2 - 322.8 | 0.002 | 3s | LV readout problem solved. WM readout is wrong (Cobra set is good)
|
12:15 | old beam | 209622 | 0103 - 103 | 7840-7840 | 323.2 - 322.8 | 0.002 | 3s | WM readout is wrong
|
12:50 | 2.3e9 | 209617 | 0104 - 104 | 7841-7841 | 323.2 - 322.8 | 0.002 | 3s | couldnt open go4 stream view, stopped after one good scan
|
13:20 | 2.0e9 | 209617 | 0104 - 105 | 7842-7842 | 323.2 - 322.8 | 0.002 | 3s | first scan with LV correct
|
|
183
|
Sat Apr 9 13:45:42 2022 |
Max, Kristian | Runs | first scans with LV problem solved! | This is the first time with LV buffer problem solved (see Elog ID: 184). Before the PMT signals were out of sync with the wavelength data!
We concluded to scan with step sizes of 0.002nm, scan range of 0.5nm (f
nm), dwelltime = 150(5s), loops = 2 (approx.: 30min measurements).
DAQ1: lxg1927:/data.local2/BeamTimeTh22/
DAQ2: lxg0155:/data.local2/E142/
LMD file name DAQ1:229Thor
LMD file name DAQ2:229Th
Shottky marker pos: 243.973MHz
Time | SIS-intensity | cooler-HV | LMD-DAQ1 start-end | LMD-DAQ2 start-end | scan range(nm) | step width(nm) | dwell time(s) | comments
|
11:25 | 1.0e9 | 209622 | 0102 - 102 | 7839-7839 | 323.2 - 322.8 | 0.002 | 3s | LV readout problem solved. WM readout is wrong (Cobra set is good)
|
12:15 | old beam | 209622 | 0103 - 103 | 7840-7840 | 323.2 - 322.8 | 0.002 | 3s | WM readout is wrong
|
12:50 | 2.3e9 | 209617 | 0104 - 104 | 7841-7841 | 323.2 - 322.8 | 0.002 | 3s | couldnt open go4 stream view, stopped after one good scan, WM readout is wrong .
|
13:20 | 2.0e9 | 209617 | 0104 - 105 | 7842-7842 | 323.2 - 322.8 | 0.002 | 3s | first scan with LV correct
|
13:40 | 1.2e9 | 209618 | 0106 - 106 | 7843-7843 | 323.2 - 322.8 | 0.002 | 3s | 3 loops
|
14:20 | 1.5e9 | 209612 | 0107 - 107 | 7844-7844 | 323.2 - 322.8 | 0.002 | 3s | 1 loop
|
Runs after this have the right cobra set value but propably the wrong WM data until 10.04.22 12:44 (see also ID:198) |
185
|
Sat Apr 9 15:47:21 2022 |
Carsten, Rodolfo, Sarper, Patrick | Runs | Afternoon and night shift runs | After the morning shift, we got new increment (nm) for the laser scanning. We are now scanning 2 nm of wavelength range in 5 big steps (5 x 0.4 nm). Started with 323.2 nm - 322.8 nm range. Every big step (0.4 nm) is scanned with 0.002 nm of wavelength increment.
Every scan takes ~ 18 min (0.4 nm range with 0.002 nm steps), we have scanned 2 loops. Total scanning time ~36 min.
DAQ1: lxg1927:/data.local2/BeamTimeTh22/
DAQ2: lxg0155:/data.local2/E142/
LMD file name DAQ1:229Thor
LMD file name DAQ2:229Th
Schottky marker pos: 243.973MHz
Time | SIS-intensity | cooler-HV | LMD-DAQ1 start-end | LMD-DAQ2 start-end | scan range(nm) | step width(nm) | dwell time(s) | comments
|
xx:xx | x.xe9 | 209xxx | 0xxx | 78xx | 32x.x - 32x.x | 0.002 | x | sketch for filling the table
|
15:14 | 1.5e9 | 209624 | 0111-0111 | 7847-7847 | 323.2 - 322.8 | 0.002 | 5s | DAQ 2 no VUPROM TDC Pat south
|
xx:xx | 1.5e9 | 209624 | 0111-0111 | 7847-7847 | 323.2 - 322.8 | 0.002 | 5s | DAQ 2 changed TDC part south from ch 8 to ch 10
|
17:05 | 2.2e9 | 209624 | 0113-0113 | 7848-7848 | 323.2 - 322.8 | 0.002 | 5s | successful scan
|
19:04 | 1.8e9 | 209616 | 0116-0116 | 7850-7850 | 323.2 - 322.8 | 0.002 | 5s | Intensity optimization, see below, DAQ 2 TDC part south back to channel 8 - ok, XUV detector and Cu mirror moved correctly, lost the laser beam after the half of the second loop
|
19:49 | 1.8e9 | 209614 | 0117-0117 | 7851-7851 | 323.2 - 322.8 | 0.002 | 5s | successful scan
|
20:28 | 2.0e9 | 209622 | 0118-0118 | 7852-7852 | 323.2 - 322.8 | 0.002 | 5s | successful scan
|
21:07 | 2.2e9 | 209623 | 0119-119 | 7853-7853 | 323.2 - 322.8 | 0.002 | 5s | successful scan
|
22:01 | 1.8e9 | 209621 | 0122-0122 | 7856-7856 | 323.2 - 322.8 | 0.002 | 5s | successful scan
|
22:41 | ? | 209620 | 0123 | 7857 | 323.2 - 322.8 | 0.002 | 5s | First scan started by night shift
|
23:21 | 1.1e9 | 209620 | 0124 | 7858 | 323.2 - 322.8 | 0.002 | 5s | mbs crashed at 'sta ac'
|
23:32 | 1.3e9 | 209618 | 0125 | 7859 | 323.2 - 322.8 | 0.002 | 5s | e-cooler turned off
|
23:50 | 1.5e9 | 209xxx | 0126 | 7860 | 323.2 - 322.8 | 0.002 | 5s | the stop point was not set
|
23:53 | 1.5e9 | 209611 | 0127 | 7861 | 323.2 - 322.8 | 0.002 | 5s | DAQ2 must have crashed between 23:30 - 23:50
|
00:07 | 1.9e9 | 209xxx | 0128 | 7862 | 323.2 - 322.8 | 0.002 | 5s | mbs crashed at 'sta ac'
|
00:23 | 1.7e9 | 209623 | 0131 | 7864 | 323.2 - 322.8 | 0.002 | 5s | successful scan. we 'resl' after every measurement from now on. 'open file' is included in '@startup' now (ID:190).
|
01:08 | 1.6e9 | 209623 | 0132 | 7865 | 323.2 - 322.8 | 0.002 | 5s | successful scan
|
01:47 | 1.6e9 | 209623 | 0133 | 7866 | 323.2 - 322.8 | 0.002 | 5s | successful scan
|
02:35 | 1.3e9 | 209623 | 0134 | 7868 | 323.2 - 322.8 | 0.002 | 5s | successful scan
|
03:19 | 2.0e9 | 209622 | 0135 | 7869 | 323.2 - 322.8 | 0.002 | 5s | successful scan
|
04:04 | 1.3e9 | 209622 | 0136 | 7870 | 323.2 - 322.8 | 0.002 | 5s | successful scan
|
04:44 | 1.0e9 | 209622 | 0137 | 7871 | 323.2 - 322.8 | 0.002 | 5s | e-cooler turned off
|
05:25 | 1.9e9 | 209622 | 0140 | 7875 | 323.2 - 322.8 | 0.002 | 5s | successful scan. DAQ1 was started ~7s before DAQ2. The files between the last measurement an this one are essentially empty.
|
Carsten (19:00h): I notized that a lot of beam gets lost when starting scraping. I called Sergey Litvinov to help me to introduce some additional cooling/waiting (10s) after the ramp and before scraping and bunching. It increased the number of ions available for the measurement roughly by a factor of 3-5.
Some runs have wrong WM data. Set Wavelength is good.
Following files are saved differently, the command missed the 229Th in the end (/data.local2/BeamTimeTh22/229Thor -auto -rfio)
7850 (19:32)
7855 (21:56)
7856 (22:30) |
195
|
Sun Apr 10 06:39:16 2022 |
Kristian, Marek, Max | Runs | runs morning shift 10.04. | These are the measurement runs of the morning shift (10.04.).
Time | SIS-intensity | cooler-HV | LMD-DAQ1 start-end | LMD-DAQ2 start-end | scan range(nm) | step width(nm) | dwell time(s) | comments
|
06:xx | 3e8 | 2096xx | 0141-0141 | 7876-7876 | 323.2 - 322.8 | 0.002 | 5s | just one loop
|
06:39 | 2e9 | 209621 | 0142-0142 | 7877-7877 | 323.2 - 322.8 | 0.002 | 5s |
|
07:18 | 2.1e9 | 209616 | 0143-0143 | 7878-7878 | 323.2 - 322.8 | 0.002 | 5s | 8000 particles on counter
|
07:57 | 2.2e9 | 209621 | 0144-0144 | 7879-7879 | 323.2 - 322.8 | 0.002 | 5s |
|
08:37 | 1.9e9 | 209620 | 0145-0145 | 7880-7880 | 323.2 - 322.8 | 0.002 | 5s | 7200 particles on counter
|
09:24 | 2.1e9 | 209621 | 0146-0146 | 7881-7881 | 323.2 - 322.8 | 0.002 | 5s | laser pulse energy @ start of run: 488mJ green monitor, 11.6mJ UV, 7700 particles on counte
|
10:07 | 2.1e9 | 209620 | 0147-0147 | 7882-7882 | 323.2 - 322.8 | 0.002 | 5s | optimized WM coupling, the WM data is stretched in this run (buffer problem?), also possible for previous runs
|
11:04 | 2.1e9 | 209620 | 0148-0148 | 7884-7884 | 323.2 - 322.8 | 0.002 | 5s | restarted WM, still wrong WM data, stopped after 1 run
|
11:27 | 2.1e9 | 209616 | 0149-0149 | 7885-7885 | 323.2 - 322.8 | 0.002 | 5s | restarted WM + LV
|
12:11 | 2.0e9 | 209616 | 0150-0150 | 7886-7886 | 323.2 - 322.8 | 0.002 | 5s | wrong WM data
|
12:55 | 1.9e9 | 209616 | 0151-0151 | 7887-7887 | 323.2 - 322.8 | 0.002 | 5s | changed LV code (ID: 198), WM data works now!
|
13:37 | 1.8e9 | 209620 | 0152-0152 | 7888-7888 | 323.2 - 322.8 | 0.002 | 5s |
|
14:16 | 2.1e9 | 209621 | 0153-0153 | 7889-7889 | 323.2 - 322.8 | 0.002 | 5s | 1 loop |
200
|
Sun Apr 10 15:16:19 2022 |
Carsten, Rodolfo, Sarper | Runs | Runs afternoon shifts 10.04 | These are the measurement runs of the afternoon shift (10.04.).
Wavelength range is changed from 323.2 - 322.8 nm to 322.81 - 322.40 nm.
Time | SIS-intensity | cooler-HV | LMD-DAQ1 start-end | LMD-DAQ2 start-end | scan range(nm) | step width(nm) | dwell time(s) | comments
|
16:26 | 1.95e9 | 209620 | 0155-0155 | 7891-7891 | 322.81 - 322.40 | 0.002 | 5s | laser scan did not work, labview (Thorium_main.vi) communication issue
|
16:51 | 1.8e9 | 209620 | 0156-0156 | 7892-7892 | 322.81 - 322.40 | 0.002 | 5s |
|
17:33 | 1.6e9 | 209618 | 0157-0157 | 7893-7893 | 322.81 - 322.40 | 0.002 | 5s | 7894 particles on the counter
|
18:17 | 1.6e9 | 209618 | 0158-0158 | 7894-7894 | 322.81 - 322.40 | 0.002 | 5s | 8200 particles on the counter
|
19:06 | 1.8e9 | 209618 | 0159-0159 | 7895-7895 | 322.81 - 322.40 | 0.002 | 5s | 8650 particles on the counter
|
19:44 | 1.9e9 | 209618 | 0160-0160 | 7896-7896 | 322.81 - 322.40 | 0.002 | 5s | 8600 particles on the counter
|
20:24 | 1.7e9 | 209620 | 0161-0161 | 7897-7897 | 322.81 - 322.40 | 0.002 | 5s | 4200 particles on the counter
|
21:04 | 1.7e9 | 209619 | 0162-0162 | 7898-7898 | 322.81 - 322.40 | 0.002 | 5s | 8380 particles on the counter
|
21:45 | 1.8e9 | 209619 | 0163-0163 | 7899-7899 | 322.81 - 322.40 | 0.002 | 5s | 8550 particles on the counter
|
22:24 | 1.8e9 | 209619 | 0164-0164 | 7900-7900 | 322.81 - 322.40 | 0.002 | 5s | 8016 particles on the counter |
203
|
Sun Apr 10 22:47:05 2022 |
Patrick, Volker, Prannay, Danyal, Alexandre, Sebastian, Kristian | Runs | Runs night shift 10.04 + morning shift 11.04 | These are the measurement runs of the night shift (10/11.04.).
Wavelength range is still 322.81 - 322.40 nm.
Time | SIS-intensity | cooler-HV | LMD-DAQ1 start-end | LMD-DAQ2 start-end | scan range(nm) | step width(nm) | dwell time(s) | particles counted | comments
|
23:05 | 1.75e9 | 209620 | 0165 - 0165 | 7901-7901 | 322.81 - 322.40 | 0.002 | 5s | 8500 |
|
23:57 | 1.?e9 | 209620 | 0166 - 0166 | 7902-7902 | 322.81 - 322.40 | 0.002 | 5s | 8500 | The HV of PMT south was changed from 2.5kV to 3kV
|
00:35 | 1.4e9 | 209620 | 0167 - 0167 | 7903-7903 | 322.81 - 322.40 | 0.002 | 5s | 4100 |
|
01:18 | 1.75e9 | 209620 | 0168 - 0168 | 7904-7904 | 322.81 - 322.40 | 0.002 | 5s | 4400 |
|
01:58 | 1.4e9 | 209620 | 0169 - 0169 | 7905-7905 | 322.81 - 322.40 | 0.002 | 5s | 7700 | The ESR went red after this run. The on-call service was called because of some power supply failure, ETA: 45min.
|
04:12 | 1.75e9 | 209620 | 0171 - 0171 | 7906-7906 | 322.81 - 322.40 | 0.002 | 5s | 7600 | With the start of this run, the wavemeter, labview and the python script were restarted. The python script was slightly adjusted.
|
04:50 | 1.6e9 | 209620 | 0172 - 0172 | 7907-7907 | 322.81 - 322.40 | 0.002 | 5s | 8300 |
|
05:31 | 1.6e9 | 209619 | 0173 - 0173 | 7908-7908 | 322.81 - 322.40 | 0.002 | 5s | 8100 |
|
06:09 | 1.6e9 | 209615 | 0174 - 0174 | 7909-7909 | 322.81 - 322.40 | 0.002 | 5s | 8000 |
|
06:52 | 1.8e9 | 209615 | 0175 - 0175 | 7910-7910 | 322.81 - 322.40 | 0.002 | 5s | 8800 | at 07:08 the cooler voltage jumped from 209615 V to 209619 V
|
07:30 | 1.9e9 | 209619 | 0176 - 0176 | 7911-7911 | 322.81 - 322.40 | 0.002 | 5s | forgotten | at 07:50 the cooler voltage jumped from 209619 to 209610 V and back again at to 209619 V
|
08:18 | 1.8e9 | 209619 | 0177 - 0177 | 7912-7912 | 322.81 - 322.40 | 0.002 | 5s | 9100 | 08:47 the cooler voltage jumped from 209618 to 209614 V and back again at to 209618 V
|
08:55 | 1.75e9 | 209619 | 0178 - 0178 | 7913-7913 | 322.81 - 322.40 | 0.002 | 5s | 8300 |
|
09:36 | 1.6e9 | 209619 | 0179 - 0179 | 7914-7914 | 322.81 - 322.40 | 0.002 | 5s | 8194 |
|
The SIS intensity is taken directly before injection to ESR. Not the SIS peak intensity as in yesterday's table. |
210
|
Mon Apr 11 14:45:11 2022 |
Paul, Konstantin, Sarper, David | Runs | Afternoon shift runs 11.04 | We continue scan the new wavelength scan range is 322.41 - 322.00 nm
Time | SIS-intensity | cooler-HV | LMD-DAQ1 file nr | LMD-DAQ2 file nr | scan range(nm) | step width(nm) | dwell time(s) | particles counted | comments
|
14:45 | 1.9e9 | 209618 | 0189 | 7924 | 322.41 - 322.00 | 0.002 | 5s | 9100 |
|
18:54 | 1.83e9 | 209616 | 0191 | 7926 | 322.41 - 322.00 | 0.002 | 5s | 7300 |
|
19:34 | 1.7e9 | 209615 | 0192 | 7927 | 322.41 - 322.00 | 0.002 | 5s | 7110 |
|
20:13 | 1.8e9 | 20961X | 0193 | 7928 | 322.41 - 322.00 | 0.002 | 5s | 6730 |
|
20:53 | 1.8e9 | 209614 | 0194 | 7929 | 322.41 - 322.00 | 0.002 | 5s | 7550 | During the scan the ecooler voltage changed to approximately 209613
|
21:43 | 1.7e9 | 209614 | 0195 | 7931 | 322.41 - 322.00 | 0.002 | 5s | 7000 |
|
22:30 | 1.6e9 | 209612 | 0197 | 7932 | 322.41 - 322.00 | 0.002 | 5s | 7300 |
|
23:10 | 1.4e9 | 209614 | 0198 | 7933 | 322.41 - 322.00 | 0.002 | 5s | 6100 | For this measurement, ESR_Ring went red, we realized only after completing the measurement. The sections went red are Dipole Correction Points (GE01KP17-18-19-20, 4 in total) @~23:45 and fixed @01:35...
|
01:52 | 1.6e9 | 209614 | 0199 | 7934 | 322.41 - 322.00 | 0.002 | 5s | 7151 |
|
02:32 | 1.7e9 | 209616 | 0200 | 7935 | 322.41 - 322.00 | 0.002 | 5s | 8368 |
|
03:22 | 1.8e9 | 209617 | 0201 | 7936 | 322.41 - 322.00 | 0.002 | 5s | 7005 |
|
04:01 | 1.9e9 | 209616 | 0202 | 7937 | 322.41 - 322.00 | 0.002 | 5s | | Ecooler voltage increased 4 volts during the run
|
|
215
|
Tue Apr 12 04:43:29 2022 |
Alexandre, Kristian, Sebastian | Runs | 322.01 - 321.60 nm | We scan the wavelength scan range is 322.01 - 321.60 nm
before the first scan of the new wavelength range we changed the high voltage divider ratio in Labview from 248514 to 248517, which is the correct value for this voltage. This leads to slightly higher cooler voltages in the log.
Time | SIS-intensity | cooler-HV | LMD-DAQ2 file nr | LMD-DAQ1 file nr | scan range(nm) | step width(nm) | dwell time(s) | particles counted | comments
|
04:40 | 1.9e9 | 209625 | 0203 | 7938 | 322.01 - 321.60 | 0.002 | 5s | 8830 |
|
05:20 | 1.7e9 | 209626 | 0204 | 7939 | 322.01 - 321.60 | 0.002 | 5s | 7800 |
|
06:00 | 1.6e9 | 209626 | 0205 | 7940 | 322.01 - 321.60 | 0.002 | 5s | 8500 |
|
06:45 | 1.7e9 | 209620 | 0206 | 7941 | 322.01 - 321.60 | 0.002 | 5s | 9400 | cooler HV decreased slowly by a few V, jumped back at ~7:03
|
07:25 | 1.8e9 | 209620 | 0207 | 7942 | 322.01 - 321.60 | 0.002 | 5s | 9300 |
|
08:05 | 1.75e9 | 209620 | 0208 | 7943 | 322.01 - 321.60 | 0.002 | 5s | 9100 |
|
08:45 | 1.7e9 | 209618 | 0209 | 7944 | 322.01 - 321.60 | 0.002 | 5s | 9000 | cooler HV decreased 5V to 209614 and jumped back to initial value after ~5s
|
09:25 | 1.7e9 | 209618 | 0210 | 7945 | 322.01 - 321.60 | 0.002 | 5s | 8500 |
|
10:05 | 1.9e9 | 209618 | 0211 | 7946 | 322.01 - 321.60 | 0.002 | 5s | 9200 | cooler HV decreased steadily to 209611 V during the run
|
10:45 | 1.9e9 | 209611 | 0212 | 7947 | 322.01 - 321.60 | 0.002 | 5s | 7500 | After injecting into the ESR, we saw after cooling some tails left and right of the Shottky peak of Th. Was not there in the runs before. After some minutes it disappeared in the spectrum
|
11:35 | 2e9 | 209611 | 0213 | 7948 | 322.01 - 321.60 | 0.002 | 5s | | it seems to be that much lesser ions are stored in the ESR - counter shows low rate - ABORTED laser didn't start scanning
|
11:58 | 1.75e9 | 209615 | 0214 | 7949 | 322.01 - 321.60 | 0.002 | 5s | 7700 | cooler HV jumped to 209610 at 12:12 and stayed there
|
12:53 | 1.85e9 | 209611 | 0215 | 7950 | 322.01 - 321.60 | 0.002 | 5s | 7155 | cooler HV increased slowly from initial value to ~209618
|
13:32 | 1.9e9 | 209612 | 0216 | 7951 | 322.01 - 321.60 | 0.002 | 5s | 6638 |
|
14:39 | 1.8e9 | 209610 | 0217 | 7952 | 322.01 - 321.60 | 0.002 | 5s | 6815 | Voltage was jumping around from 209610 up to 209624 and back
|
15:20 | 1.75e9 | 209612 | 0218 | 7953 | 322.01 - 321.60 | 0.002 | 5s | 8400 | In contrast to the previous measurement, the cooler voltage was drifting by about 3V around 209612
|
16:00 | 1.7e9 | 209612 | 0219 | 7954 | 322.01 - 321.60 | 0.002 | 5s | 7920 |
|
16:58 | 1.5e9 | 209612 | 0220 | 7955 | 322.01 - 321.60 | 0.002 | 5s | 4577 | PMT North voltage and threshold modified Entry 221, Ecooler voltage dcreased to 209609 V, weak injection
|
18:09 | 1.62e9 | 209609 | 0221 | 7957 | 322.01 - 321.60 | 0.002 | 5s | | During the last injection the beam suddenly got lost during the scraping, File 7956 was discarded since go4 was still during the startup of mbs
|
18:49 | 1.69e9 | 209609 | 0222 | 7958 | 322.01 - 321.60 | 0.002 | 5s | 6133 |
|
19:49 | 1.6e9 | 209610 | 0223 | 7959 | 322.01 - 321.60 | 0.002 | 5s | 7035 |
|
20:29 | 1.78e9 | 209611 | 0224 | 7960 | 322.01 - 321.60 | 0.002 | 5s | 4490 |
|
21:12 | 1.86e9 | 209622 | 0225 | 7961 | 322.01 - 321.60 | 0.002 | 5s | 10296 | Note that the cooler voltage is increased. Particle number might be overestimated since it was read when the beam was already dumped.
|
|
|
Attachment 1: DriftingVoltage14-40.PNG
|
|
223
|
Wed Apr 13 14:29:04 2022 |
Carsten, Rodolfo, Sarper, David, Pierre-Michel, Max, Sebastian | Runs | Afternoon - morning shift runs 13.+14.04. | Changed the wavelength scan range from 321.62 - 321.10 nm to 321.12 - 320.60 nm after one scan.
Time | SIS-intensity | cooler-HV | LMD-DAQ2 file nr | LMD-DAQ1 file nr | scan range(nm) | step width(nm) | dwell time(s) | particles counted | comments
|
14:28 | 1.9e9 | 209618 | 0254 | 7983 | 321.62 - 321.10 | 0.002 | 5s | 7950 |
|
15:35 | 1.7e9 | 209613 | 0255 | 7984 | 321.12 - 320.60 | 0.002 | 5s | 7100 | Wavelength range has changed starting from this scan
|
16:21 | 1.8e9 | 209612 | 0256 | 7985 | 321.12 - 320.60 | 0.002 | 5s | 6900 |
|
17:11 | 1.8e9 | 209619 | 0257 | 7986 | 321.12 - 320.60 | 0.002 | 5s | 7950 |
|
17:57 | 2.0e9 | 209618 | 0258-0259 | 7987 | 321.12 - 320.60 | 0.002 | 5s | 8900 |
|
18:48 | 2.1e9 | 209620 | 0260-0261 | 7988 | 321.12 - 320.60 | 0.002 | 5s | 9260 | After the scan was complete, we have realized that TCL 1064 computer is crashed.. fixed @ 20:05
|
20:07 | 2.1e9 | 209621 | 0262 | 7989 | 321.12 - 320.60 | 0.002 | 5s | 7800 |
|
20:56 | 2.0e9 | 209620 | 0263 | 7990 | 321.12 - 320.60 | 0.002 | 5s | 8190 | After closing file, we replaced the dye from the laser.
|
22:10 | 0 | 209620 | 0264 | 7991 | 321.12 - 320.60 | 0.002 | 5s | 0 | No beam due to failures in Unilac and SIS. NTCAP stopped 01:44, restarted 02:15
|
02:20 | 1.5e9 | 209620 | 0265 | 7992 | 321.12 - 320.60 | 0.002 | 5s | 0 | Electron cooler problem during scan, bad file.
|
02:52 | 1.4e9 | 209624 | 0266-0267 | 7993 | 321.12 - 320.60 | 0.002 | 5s | 3076 | --> CU mirror in all time !!!
|
03:44 | 1.6e9 | 209625 | 0268-0269 | 7994 | 321.12 - 320.60 | 0.002 | 5s | 5156 | --> CU mirror in all time !!!
|
04:35 | 1.7e9 | 209624 | 0270-0271 | 7995 | 321.12 - 320.60 | 0.002 | 5s | 3430 | --> CU mirror in all time !!!
|
05:27 | 1.6e9 | 209621 | 0272-0273 | 7996 | 321.12 - 320.60 | 0.002 | 5s | 3200 | --> CU mirror in all time !!!
|
06:17 | 1.6e9 | 209621 | 0274-0275 | 7997 | 321.12 - 320.60 | 0.002 | 5s | 3371 | low particle count since 22:00, see ID:225, --> CU mirror in all time !!!
|
07:24 | 1.5e9 | 209622 | 0276-0277 | 7998 | 321.12 - 320.60 | 0.002 | 5s | 3366 | --> CU mirror in all time !!!
|
08:33 | 1.6e9 | 209621 | 0278-0279 | 7999 | 321.12 - 320.60 | 0.002 | 5s | 2940 | ecooler jumped to 209615 during measurement, --> CU mirror in all time !!!
|
09:26 | 1.5e9 | 209618 | 0280 | 8000 | 321.12 - 320.60 | 0.002 | 5s | | aborted, request of Carsten
|
09:46 | 1.6e9 | 209621 | 0283-285 | 8003 | 321.12 - 320.60 | 0.002 | 5s | 2950 | small ecooler current changes (300mA injection and 50mA @ measurement), fragments survive in schottky @ lower frequencies (see attached pic1 and pic2), it seems to be that the cooler does not work correctly in "phase 1" (pic 1), --> CU mirror in all time !!!
|
11:28 | 1.75e9 | 209624 | 0287 | 8005 | 321.12 - 320.60 | 0.002 | 5s | ~1800 | ESR cooler back to 450mA (injection), 40mA (measurement), additional manual waiting time of 15s in machine 3 (after injection before ramping); ABORT laserscan on Carstens request after ~1 loop; Sergey arrived and we get some time for ion beam adjustements, --> CU mirror in all time !!!
|
12:23 | 1.5e9 | 209623 | 0289-0290 | 8007 | 321.12 - 320.60 | 0.002 | 5s | 8100 | Cu mirror is again automated and intensity in ESR is back up ; @12:42 increase of the width of the ion beam (pic3) @12:43 again normal width, intensity dropped significantly over time afterwards
|
13:09 | 1.55e9 | 209622 | 0291-292 | 8008 | 321.12 - 320.60 | 0.002 | 5s | 4852 | beam killed @ loop 2 scan nbr 253 (8 steps missed)
|
14:00 | 1e9 | 209622 | 0293-0294 | 8009 | 321.12 - 320.60 | 0.002 | 5s | 5509 |
|
14:48 | 9.5e8 | 209622 | 0295-0296 | 8010 | 321.12 - 320.60 | 0.002 | 5s | 5477 |
|
15:47 | 1e9 | 209622 | 0297-298 | 8011 | 321.12 - 320.60 | 0.002 | 5s | 6336 |
|
16:42 | 7e8 | 209619 | 0299 | 8012 | 321.12 - 320.60 | 0.002 | 5s | 2424 |
|
17:45 | 9.9e8 | 209620 | 0300 | 8013 | 321.12 - 320.60 | 0.002 | 5s | 5133 |
|
|
Attachment 1: coolerProblemsAndFragments.JPG
|
|
Attachment 2: fragments.JPG
|
|
Attachment 3: BroaderIonBeam.JPG
|
|
Attachment 4: againNormalWidth.JPG
|
|
230
|
Thu Apr 14 17:47:55 2022 |
Carsten, Rodolfo, Konstantin, Sarper | Runs | Afternoon shift runs 14.04 changing the wavelength scan range | The new scan range is changed from 321.12 - 320.60 nm to 320.62 - 320.10 nm
Time | SIS-intensity | cooler-HV | LMD-DAQ2 file nr | LMD-DAQ1 file nr | scan range(nm) | step width(nm) | dwell time(s) | particles counted | comments
|
18:36 | 9.5e8 | 209618 | 0301 | 8014 | 320.62 - 320.10 | 0.002 | 5s | 6270 |
|
19:45 | 9.4e8 | 209615 | 0302 | 8015 | 320.62 - 320.10 | 0.002 | 5s | 5400 |
|
20:44 | 8.4e8 | 209618 | 0303 | 8016 | 320.62 - 320.10 | 0.002 | 5s | 4210 |
|
21:37 | 8.9e8 | 209616 | 0304 | 8017 | 320.62 - 320.10 | 0.002 | 5s | 4550 |
|
|
232
|
Thu Apr 14 22:44:40 2022 |
Patrick, Simon, Danyal, Max | Runs | Runs night shift 14./15.04. | Runs of the night shift. The wavelength range is 320.62 - 320.10 nm.
Time | SIS-intensity | cooler-HV | LMD-DAQ2 file nr | LMD-DAQ1 file nr | scan range(nm) | step width(nm) | dwell time(s) | particles counted | comments
|
22:38 | 9.5e8 | 209621 | 0305 | 8018 | 320.62 - 320.10 | 0.002 | 5s | 5000 | laser scan was started 1 min late
|
23:38 | 9.8e8 | 209622 | 0306 | 8019 | 320.62 - 320.10 | 0.002 | 5s | 5550 |
|
00:32 | 1.0e9 | 209621 | 0307 | 8020 | 320.62 - 320.10 | 0.002 | 5s | 4000 | After ~4000 counted particles (second scan, 1:04 am) the e-cooler went off.
|
01:21 | 1.1e9 | 209622 | 0308 | 8021 | 320.62 - 320.10 | 0.002 | 5s | 6700 |
|
02:12 | 1.2e9 | 209623 | 0309 | 8022 | 320.62 - 320.10 | 0.002 | 5s | 6400 |
|
03:03 | 1.1e9 | 209624 | 0310 | 8023 | 320.62 - 320.10 | 0.002 | 5s | 5500 |
|
03:55 | 1.3e9 | 209622 | 0311 | 8024 | 320.62 - 320.10 | 0.002 | 5s | 7700 |
|
04:47 | 1.2e9 | 209622 | 0312 | 8025 | 320.62 - 320.10 | 0.002 | 5s | 5300 |
|
05:36 | 1.2e9 | 209620 | 0313 | 8026 | 320.62 - 320.10 | 0.002 | 5s | 6666 |
|
06:25 | 1.2e9 | 209619 | 0314 | 8027 | 320.62 - 320.10 | 0.002 | 5s | 6500 | change of shift crew (Danyal & Max)
|
07:16 | 1.2e9 | 209618 | 0315 | 8028 | 320.62 - 320.10 | 0.002 | 5s | 5230 |
|
08:13 | 1.2e9 | 209620 | 0316 | 8029 | 320.62 - 320.10 | 0.002 | 5s | 6600 |
|
09:04 | 1.1e9 | 209619 | 0317 | 8030 | 320.62 - 320.10 | 0.002 | 5s | 6660 |
|
09:54 | 1.2e9 | 209619 | 0318 | 8031 | 320.62 - 320.10 | 0.002 | 5s | 5950 |
|
10:49 | 1.1e9 | 209619 | 0319 | 8032 | 320.62 - 320.10 | 0.002 | 5s | 6580 |
|
11:38 | 1.1e9 | 209617 | 0320 | 8033 | 320.62 - 320.10 | 0.002 | 5s | 5380 |
|
|
|
236
|
Sat Apr 16 04:19:05 2022 |
Patrick, Simon, Alex, Sarper | Runs | Runs night + morning shifts 16.04. | Runs of the night shift 16.04. after changing the wavelength range. The new range is 320.12 - 319.859 nm. The step size was decreased from 0.002 nm to 0.001 nm.
The goal was to have the same number of scans as before (261), however, the scan range in the labview program could not be set accordingly. We decided to go with 262 scans after the first run.
Time | SIS-intensity | cooler-HV | LMD-DAQ2 file nr | LMD-DAQ1 file nr | scan range(nm) | step width(nm) | dwell time(s) | particles counted | comments
|
04:24 | 1.28e9 | 209616 | 0338 | 8051 | 320.12 - 319.86 | 0.001 | 5s | 6750 | This run had only 260 scans
|
05:18 | 1.20e9 | 209615 | 0339 | 8052 | 320.12 - 319.859 | 0.001 | 5s | 6300 | First run with 262 scans
|
06:09 | 1.36e9 | 209615 | 0340 | 8053 | 320.12 - 319.859 | 0.001 | 5s | 6910 | laser scan started 2 min late at 650 counts
|
07:03 | 1.24e9 | 209615 | 0341 | 8054 | 320.12 - 319.859 | 0.001 | 5s | 6330 |
|
07:59 | 1.23e9 | 209615 | 0342 | 8055 | 320.12 - 319.859 | 0.001 | 5s | 5712 |
|
08:51 | 1.1e9 | 209615 | 0343 | 8056 | 320.12 - 319.859 | 0.001 | 5s | 4380 |
|
09:44 | 1.28e9 | 209615 | 0344 | 8057 | 320.12 - 319.859 | 0.001 | 5s | 5135 |
|
10:39 | 1.25e9 | 209615 | 0345 | 8058 | 320.12 - 319.859 | 0.001 | 5s | 5860 |
|
11:30 | 1.2e9 | 209615 | 0346 | 8059 | 320.12 - 319.859 | 0.001 | 5s | 6500 |
|
12:22 | 1.23e9 | 209618 | 0347 | 8060 | 322.41 - 322.00 | 0.002 | 5s | 5200 | Laser wavelength scan range is changed to 322.41 - 322.00 nm and increment to 0.002 nm.
|
13:04 | 1.2e9 | 209616 | 0348 | 8061 | 322.41 - 322.00 | 0.002 | 5s | 4411 |
|
13:50 | 1.2e9 | 209616 | 0349-0351 | 8062-8063 | 322.41 - 322.00 | 0.002 | 5s | 10651 | last scan / 10 loops ~ 3 hours of scan -- Ecooler failed, realized at 16:05 we were on loop8, laser is turned off at 16:10
|
|
1
|
Mon Jul 26 17:15:47 2021 |
Rodolfo | Laser | Quanta Ray - Water leak | On Thursday afternoon (22.07.2021) a water connector has broken and water has been spilled in the laser head. |
Attachment 1: QRAY_AnschlussGeplatzt.jpg
|
|
2
|
Mon Jul 26 17:58:52 2021 |
Rodolfo | Laser | Water Filters | The water filters (deioninzing and particle) have been replaced. |
Attachment 1: QRAY_DeionizingFilter.jpg
|
|
4
|
Mon Aug 2 10:54:44 2021 |
Rodolfo | Laser | Quanta Ray - Water leak in the power supply | After fixing the broken water connector in the laser head a new water leak appeared in the Quanta-Ray power supply.
We found the leak in the water pump flow line (arrow up). We took the water connectors appart, rebuilt the teflon seeling and put the water connectors back again.
Laser is back in operation. |
Attachment 1: QRAY_WaterPump.jpg
|
|
11
|
Thu Mar 3 13:50:45 2022 |
Rodolfo | Laser | Dye cell cracket | The "20 mm" dye cell used for the Oscillator and Pramplifier got damage. I supposed it was produced by the pump beam hitting on a very "old" dye solution (DCM / Ethanol, concentration 0,3 g/l). The solution in the dye reservoir was more 12 months old. |
Attachment 1: Cobra_Farbstoffzelle_08-02-2022.jpg
|
|
13
|
Thu Mar 3 17:34:42 2022 |
Rodolfo | Laser | Pump Laser | We have issues with our Pump Laser (Spectra Physics - Quanta Ray Pro). After the service made on mid Dezember (2021) the laser does not get started. After contacting the service many times, the technicians think it can be an issue with the flashlamps.
- Flashlamps installed technician on 15.12.2021: FAILED.
- Flashlamps installed by Rodolfo on 21.01.2022: FAILED.
- Flashlamps installed by Rodolfo on 08.02.2022: WORK, however
the power is dropping extremelly fast. The measured power on 08.02.2022 was 21.6 W. On 01.03.2022 we measured 17,8 W (for 2.7 Millon shots). The flashlamps should stand 30 Millon shots without losing too much power. |
Attachment 1: QRAY_Simmern.jpg
|
|
14
|
Thu Mar 3 21:39:21 2022 |
Rodolfo | Laser | Dye solution, DCM in Ethanol and DMSO | I have prepared a new dye solution of DCM in Ethanol and DMSO (1:1). The concentration of the "oscillator + preamplifier" is 0,3 g/l. The concentration of the "main amplifier" is 0,0375 g/l or "1/8" the concentration of the "oscillator".
Using 500 mJ pump energy (@ 532 nm) I get 120 mJ ouf of the dye laser (@ 640 nm). After the Frequency Conversion Unit I get 32 mJ (@ 320 nm).
Because the Biochemielabor will be not accessible during the first days of the Thorium beamtime, I have prepared enough reservoir for 7 days (assuming the laser system will run 24/7). |
Attachment 1: FarbstoffVorrat_Thorium.jpg
|
|
33
|
Thu Mar 24 16:59:35 2022 |
Rodolfo | Laser | Photodiode signal SO | Fast Photodiode signal at the "SO-Bogen" (South-east arc).
- Average made over 250 samples.
- The photodiode is placed after two HR (high reflexion) mirrors. |
Attachment 1: FastPD_SO_Signal_24-03-2022.jpg
|
|
Attachment 2: FastPD_SO_24-03-2022.jpg
|
|
35
|
Fri Mar 25 14:31:24 2022 |
Rodolfo | Laser | Photodiode signal SO in the Messhütte | Measured at the Panel "Messhütte - Laserhütte", BNC "Fast PD / SO".
- Average over 256 samples |
Attachment 1: PD_SO_Signal_MH_25-03-2022.PNG
|
|
36
|
Tue Mar 29 12:01:08 2022 |
Rodolfo | Laser | Laser targets | I have installed two targets* (size: 2 inches) to monitor the position of the laser beam.
- The internet cameras can be accessed from any browser, but only inside the GSI-Campus network. Benutzername: admin. Kennwort: 1234
- Target SO (UV-Laser IN). Internet camera: atpdev005.gsi.de **
- Target NO (UV-Laser OUT). Internet camera: apdev17.gsi.de
- To move a specific target "in" or "out" the way just choose the target in the "target control box" and press the green bottom.
* The material of the target is Frosted Glass (Thorlabs: DG20-15ß00-H2-MD).
** The camera hang sometimes. |
Attachment 1: TargetIN_SO.png
|
|
Attachment 2: TargetOUT_NO.png
|
|
Attachment 3: TargetControlBox.jpg
|
|
38
|
Tue Mar 29 21:37:13 2022 |
Rodolfo | Laser | Pump Laser | The gold "reflectors and end plates" of our pump laser (Quanta-Ray PRO) have been exchanged by new ones.
- Output power after Oscillator and Amplifier (@ 1064 nm): 41 W.
- Output power after Second harmonic crystal (@ 532 nm): 18.2 W.
- Aditionally, we (Simon and I) have replaced the axial blowers in the power supply.
The picture shows the "old" gold reflectors. |
Attachment 1: QRay_GoldReflektoren_2010-2022.jpg
|
|
80
|
Sun Apr 3 13:05:08 2022 |
Carsten | Laser | Distance of Partilce detecotrs wr.t. to electron cooler | As of Yuris post in the elog the positions (Info from H. Weick):
The postion of the particle counter behind the cooler is 21.6 m behind the middle of the cooler.
This correspond to 21.6m /108,4m = 1 / 5.02 of a full revolution (please check the present revolution frequency, i.e. for 2MHz, i.e. 500ns we have the signal approx 100ns after the ion is in the middle of the cooler).
If the detecot Nord would be used for bunch timing (only planned if detctor south is defect) the distance is half a ring + 21.4m, beind the center of the cooler, i.e. (54.2m+21.6m)/108.4m ~ 0.7 |
82
|
Sun Apr 3 18:41:11 2022 |
Konstantin and Rodolfo | Laser | Beam Position Stabilization | We (Konstantin and I) have optimized the TEM "laser-beam position stabilization".
- I took some pictures (screenshots) about the current setting*.
- In order to be able to move the laser position faster we increase the P-Factor of both stages to 5 (maximum value).
- In "TriggerSignals_f_MRC_04-04-2022" the fast PD defines the origin (t = 0 s). |
Attachment 1: MRC_Konfiguration_MitMainAmp_03-04-2022.png
|
|
Attachment 2: MRC-ControllerSetting_03-04-2022.jpg
|
|
Attachment 3: FG_SettingsMRC_03-04-2022.jpg
|
|
Attachment 4: TriggerSignals_f_MRC_04-04-2022.PNG
|
|
101
|
Tue Apr 5 20:16:13 2022 |
Rodolfo | Laser | Discriminator for HF reference signal | For the laser trigger we need to generate a few ns NIM-puls from the HF reference signal. Therefore we (Wilfried, Konstantin and me) have changed the constant fraction descriminator (CFD) to generate this kind of pulse.
- We are using now the module N843 from CAEN, see picture below. With this we could now produce ~20 ns long pulse.
- This signal is also used as STOP trigger for the VUPROMs |
Attachment 1: CFD_für_HFSignal.jpg
|
|
Attachment 2: Disc_HFSignal_05-04-2022.PNG
|
|
102
|
Tue Apr 5 20:58:53 2022 |
Wilfried | Laser | Trigger for Laser | Electronic for the timing of the laser puls optimized. The problem with the broad photodiode histograms is solved.
The photo of the oscilloscope picture shows in magenta the pulses from the (discriminated RF)/2, in yellow the pulses that are generated to open the Q-Switch. The latter are generated by the coincidence of the 30-Hz trigger (2 microsec long) to
allow for the Q-Switch to be fired. Within this period are usually 2 pulses from the RF and both generate a 100 ns long coincidence puls. The first one of those creates a 50 microsec long window (light blue) that is send to the Q-switch. The length
and the delay of this pulse can be changed. While the length is kept fixed, the delay can be changed in order to shift the arrival time of the laser pulse at the electron cooler to coincide with the ion bunch.
The problem of the wide photodiode histograms and the background was caused by a too large pulsewidth of the discriminated RF. The magenta pulses were about 100 ns long. Any pulse that arrives within a timespan between 99 and 0 ns before the 30-Hz
trigger of the Q-switch "allowance" will trigger a laser pulse immediately at the start of this trigger and therefore a jitter of up to 100 ns can occur. Therefore it is important that the CFD pulses are as short as possible, we set them to 20 ns
and the width of the photodiode histogram was just 3 bins wide (at the foot maybe 5 bins).
I (Rodolfo) just added the picture with the cabling configuration. The colors of cables match together with the colors show in the oscilloscope. |
Attachment 1: TriggerForLaser_05-04-2022.PNG
|
|
Attachment 2: TriggerLaser_Cabling.jpg
|
|
118
|
Thu Apr 7 00:15:11 2022 |
Patrick | Laser | Laser timing adjusted | We have adjusted the laser timing using PMT-middle. Bunching freq. is 3.90362 MHz.
PD NO: 7.79
PD SO: 43.37
mean: 25.08
PMT middle: 25.02
Delta = 0.6 bins * 3.3 ns = 0.2 ns
New injection:
PMT middle: 25.48 / 101.91
ParDet south: 74.31 / 151.31
ParDet south - PMT middle (furthest / closest distance) = 161.1 ns / 91.1 ns |
Attachment 1: 220407-Laser-ion-timing.png
|
|
Attachment 2: 220407-Laser-ion-timing-full-period.png
|
|
Attachment 3: 220407-ParDetSO_PMT-middle.png
|
|
120
|
Thu Apr 7 01:19:05 2022 |
Patrick | Laser | Laser scanning | We did some laser scans. The wavemeter shows spikes during scans. This may be just while the frequency changes. See picture. |
Attachment 1: 2022-04-07_Wavemeter_during_scan.png
|
|
Attachment 2: 2022-04-07_Wavemeter_during_scan2.png
|
|
Attachment 3: 2022-04-07_Wavemeter_during_scan3.png
|
|
Attachment 4: 2022-04-07_Wavemeter_during_scan4.png
|
|
136
|
Thu Apr 7 11:11:31 2022 |
Max, Sebastian | Laser | dye changed, pulse energy measurements | We changed the dye at 10am.
We increased the pump power for the dye Laser to 480mJ (before 450mJ). New calibration factor is 29 for Quanta Ray monitor signal.
We get now 17mJ UV pulse energy after SHG. Pulse energy before was 14mJ. |
145
|
Fri Apr 8 00:06:37 2022 |
Patrick | Laser | Connection to the laser pc | To login to the laser pc use the command
xfreerdp -g 1920x1080 -u atplaser atppc023.campus.gsi.de |
148
|
Fri Apr 8 02:14:05 2022 |
Wilfried | Laser | Laser timings adjusted | Since we use the middle window as a reference for the laser pulse timing, the fact that the window is 2.25 m behind the target has to be taken into account. From here the ions have 10 ns less time of flight to the middle of the electron cooler than they need for half a revolution. The signals were still symmetrically aligned around the reference bunch as it was done yesterday. Therefore, the delay of the laser pulse was reduced by 10-ns on the oscilloscope, which led both photodiode histograms move 3 bins further to the right (towards larger times till common stop, since the pulse arrives earlier).
Since the RF frequency is turned down from ~ 1 MHz to ~ 400 kHz during injection/preparation, the laser does not fire reliably and the beam stabilization does not work very well during this period. This was solved by increasing the window in which the Q-Switch signal is accepted from 2 microseconds to 5 microsececonds. The laser is now firing regularly and with high power also during the preparation time and the beam position stabilization works very well. |
149
|
Fri Apr 8 03:54:39 2022 |
Patrick | Laser | Q-switch window | The solution of increasing the Q-switch window from 2us to 5us described in ID:148 fulfills its purpose, but the window is unstable.
We saw the laser jumping across the screen which was because the Laser had a lot of hickups.
The hickups come from the signal which determines the duration of the window.
This window "flickers". It gets very small, leaving no time for coincident events which fire the laser.
This is probably an issue with the NIM module.
Compare the picture below: The oscilloscope freezes and only the first of the yellow pulses is visible which should repeat and span 5us at the moment.
After looking at the different signals to trigger the laser on the oscilloscope, the laser does not fire anymore when used in the external trigger mode.
However, all signals are looking good and everything should be in the same state as before.
The internal Q-switch works as good as before. |
Attachment 1: 2022-04-08_Q-switch_window.jpg
|
|
152
|
Fri Apr 8 08:17:52 2022 |
Sebastian | Laser | Laser Ext Trig is working | We (Max, Kristian, Danyal, me) fixed the "external trigger" problem.
1.) The delay between lamp sync and Q-switch trigger was too long. The delay must be 200µs (3rd picture)!
2.) The settings from the left Dual Timer (upper and lower part) in the ESR Laser Lab (above QuantaRay laser) were wrong and are now adjusted. Settings are depicted in the attached photos (1st and 2nd pic).
4th picture shows the pulse train of the pump laser. |
Attachment 1: upperDualTimerSettings.JPG
|
|
Attachment 2: lowerDualTimerSettings.JPG
|
|
Attachment 3: LampSyncToQSwitchTrig.JPG
|
|
Attachment 4: TriggerPulseTrain.JPG
|
|
160
|
Fri Apr 8 11:16:57 2022 |
Kristian | Laser | Wavemeter | We changed the fiber to the wavemeter. The third fiber worked best and we could operate the WM at low exposure times, i.e., below the laser repetition rate. We used the neutral density filter to adapt the laser power that only one laser pulse is measured by the WM each time (Exposure time =34ms)
This way, there are no frequency jumps. The jitter is slighly different at each wavelength which was ~5GHz peak to peak.
We optimized the fiber coupler and slightly optimized the jitter to <4GHz. |
Attachment 1: Wavemeter.PNG
|
|
Attachment 2: Wavemeter2.PNG
|
|
180
|
Sat Apr 9 05:26:25 2022 |
Patrick | Laser | Wavemeter | The wavemeter still shows large spikes from time to time. The exposure time is still at 34ms. |
Attachment 1: 2022-04-09_Wavemeter_during_scan5.png
|
|
182
|
Sat Apr 9 06:42:23 2022 |
Kristian | Laser | Laser step size | We changed the laser step size to 0.002 nm which corresponds to 5.75 GHz. |
186
|
Sat Apr 9 16:55:19 2022 |
Rodolfo | Laser | | 16:15 I have changed the dye (of both oscillator and amplifier).
16:27 I have increased the pump energy (@ 532 nm) from 476 mJ to 507 mJ.
- UV output energy @ 322,8 nm: 12 mJ. (Before was at 9 mJ).
- New calibration factor is 160 for Quanta Ray monitor signal. |
188
|
Sat Apr 9 19:09:57 2022 |
Rodolfo | Laser | Optimization - Resonator of dye laser | I have tuned a bit the resonator of the dye laser.
The total output energy after the main amplifier is 86 mJ (@ 645,6 nm)
The laser wavelength read by the wavemeter appears to be more stable (on the windows computer). We can see the histogram once the present scanning is finished. |
196
|
Sun Apr 10 08:53:26 2022 |
Kristian, Max | Laser | Timing verified | timing is still good.
we checked the relative timing between laser and ions. the time difference between photodiodes, PMTs and particle detectors is still the same as original (see ELOG ID 169). The common stop of changed a slightly so that everything appears one bin later. |
197
|
Sun Apr 10 11:11:18 2022 |
Kristian, Max | Laser | additional WM readout | since the WM readout still does not work reliably, I started a python script at atppc023 that saves timestamp and wavemeter frequency. in folder wavemeter at the desktop.
it is about 1 MB / h
Rename the old file and restart when you change the wavelength range. |
202
|
Sun Apr 10 15:29:53 2022 |
Rodolfo | Laser | Status - Laser system | We have checked the laser system.
- The pump laser has ~ 23Mio shots. The total output energy has dropped to about 475 mJ. Maybe it is time to install new fresh flashlamps. In case the accelerator is going to have any mantainance tomorrow (Monday) then we can take the oportunity to exchange the flashlaps.
- The dye laser is pumped with 470 mJ (angle of lambda/2 plate = 112°).
- The energy after the second harmonic is 11,3 mJ @ 646 nm. We are using the Sarper's calibration table (635 nm - 646 nm) |
208
|
Mon Apr 11 11:05:35 2022 |
Sebastian, Kristian | Laser | Check laser power | we checked the UV laser power at 10:15 am. It was only 8.5 - 9 mJ. Pumping power was 460 mJ, which is the maximum output of the current system. We should change the flashlamps soon |
211
|
Mon Apr 11 18:46:31 2022 |
Rodolfo, Sarper and Konstantin | Laser | Alignment-check | We cross-checked the laser-ion alignment. The horizontal position was optimized. However,
since the laser beam is much larger than the ion beam, this was not an issue for measurements, which
have been performed during the last shifts.
The modified parameters of the stabilization system are attached. |
Attachment 1: MRC_Konfiguration_MitMainAmp_04-11-2022.png
|
|
212
|
Mon Apr 11 18:57:18 2022 |
Rodolfo | Laser | New flashlamps | We (Sarper, Konstantin and me) have changed the old flashlamps (with ~ 26 Mio. shots) by new "fresh" ones. We have also exchange the dye. Here are some parameters of the laser we measured with the new flashlamps and dye*:
- Output energy after the Quanta-Ray (@ 532 nm): 598 mJ.
- Seed energy for Cobra (@ 532 nm): 505 mJ.
- Correction factor for monitor; 15.9.
- Output energy after Cobra's main amplifier cell (@ 640 nm): 107 mJ.
- Output energy after SHG (@ 320 nm): 15.8 mJ.
* all values are average over 500 shots.
** below you can see a picture of the "old" flashlamps. |
Attachment 1: Blitzlampe_26Mio_Schüsse_11-04-2022.jpg
|
|
213
|
Mon Apr 11 22:14:51 2022 |
Konstantin, Sarper | Laser | Changing of the wavelength range | It is planned to change the scan range of the laser wavelength from 322.41 - 322.0 nm to 322.01 - 321.6 nm @ 4 a.m. |
220
|
Tue Apr 12 15:05:56 2022 |
Rodolfo | Laser | Laser status | We have checked the laser power at 14:15 *
- Pump energy after Q-Ray @ 532nm: 559 mJ.
- Seed energy for Cobra @ 532 nm: 505 mJ (before 481 mJ).
- Correction factor for monitor: 28.8.
- UV-Energy after SHG @ 321.6 nm: 13.7 mJ.
* All values are averaged over 500 shots |
224
|
Wed Apr 13 15:41:29 2022 |
Rodolfo & Sarper | Laser | Laser status | We have checked the power of the laser and optimized it "a bit".
- Seed energy for the Cobra @ 532 nm: 508 mJ (before 496 mJ)*
- New correction factor for the Monitor: 43.
- UV energy after the SHG @ 321.1 nm: 11.6 mJ*
*Average over 500 pulses. |
231
|
Thu Apr 14 19:46:46 2022 |
Sarper & Konstantin & Rodolfo | Laser | Laser power | We checked the laser power before starting the new scan range.
- Seed energy before Cobra @ 532 nm: 513 mJ (before 499 mJ).
- New correction factor for Monitor: 71.25.
- UV output energy after SHG @ 320.1 nm: 11 mJ
All values are averaged over 500 laser pulses. |
234
|
Fri Apr 15 12:53:25 2022 |
Max, Danyal | Laser | checked laser pulse energy after change in wavelength range | previous scan range:
the laser pulse energy @ 320.62 nm was ~11 mJ
new scan range:
the laser pulse energy @ 320.12 nm was ~11 mJ
the laser pulse energy @ 319.60 nm was ~10 mJ |
235
|
Fri Apr 15 20:43:18 2022 |
Konstantin | Laser | Dye changed | Dye of the laser system has been changed. UV laser power increased from ~8 mJ to 11 mJ pulse energy. |
237
|
Wed Apr 20 10:09:50 2022 |
Rodolfo | Laser | Optic with spots | The average energy produced by the laser along the beamtime was about 10 mJ/puls. After about two weeks of beamtime some of the optics, especially the optic placed just after the BBO crystall, got some spots, see pictures below. Here the diameter of the laser beam is about 6 mm. |
Attachment 1: SHG_Compensator_mitFleck_19-04-2022.jpg
|
|
Attachment 2: UV_Umlenkspiegel_mitFleck_19-04-2022.jpg
|
|
3
|
Wed Jul 28 13:31:22 2021 |
Rodolfo | General | Air filters | Filters (Hepa-) inside the flow boxes have been replaced. |
Attachment 1: Flowbox_Filters.png
|
|
Draft
|
Wed Sep 8 21:44:55 2021 |
Rodolfo | General | Preparation |
Status | Arbeitspaket | Kommentare
|
| Laser und Laserlabor |
|
*** | Farbstofflaser | Elektronik wurde erneut.
|
|
29
|
Wed Mar 23 15:38:15 2022 |
Carsten | General | Not all lights in the ESR can be switched off | Three of the lights in the ESR cannot be switched off. It seems that these lights are now "emergency lights" (with battery?). We will need to find dark plastik foilor similar to cover those lights during our beam time |
63
|
Sat Apr 2 05:08:00 2022 |
Kristian | General | Morning shift | I see no updates in the log. Is the morning shift taking place?
For now I will stay at home and be on call. I can be at GSI in 20 min. Please let me know the status.
01575 8731537 |
64
|
Sat Apr 2 10:22:21 2022 |
Rui-Jiu Chen, Ragan | General | Beam is in the ESR | Primary beam is in the ESR now. Markus and the team are tuning the ESR. |
106
|
Wed Apr 6 08:31:54 2022 |
Danyal & Regina | General | ESR had some errors | Regina noticed that the ESR was "red"
This means that there are some errors.
She found:
correction fields in the dipoles were off
GE01KP02 ... 05
GE01KP22 ... 24
and some correction elements were off
GE02KX6
GE01KX2
Regina would like to know since WHEN this is the case.
In general, such errors affect the ion beam trajectory !
Regina will try to find out more details on how this may have shifted the orbit. |
131
|
Thu Apr 7 08:14:03 2022 |
Yuri & Danyal | General | 229Th89+ line in Schottky | GLOBAL calculations for the "content" of the Th line in the Schottky spectrum
(380 MeV/u exit energy, equilibrium charge state distribution)
Actinium 9.9% - bare
Thorium 42.4% - H-like
Protactinium 44.8% - He-like
Uranium 2.7% - Li-like |
138
|
Thu Apr 7 14:04:36 2022 |
Paul Indelicato | General | no beam until 17:00 | 10:10 There is a problem with the UNILAC.
The repair will take several hours. (4 hrs?)
14:00 We just enquired about the status and when beam could be back.
The current estimate is 17:00.
More work on laser aligment is required.
Estimated time: 1 hour |
179
|
Sat Apr 9 05:00:11 2022 |
Carsten | General | Draft Docs and cheat sheet | Please check the attached files,
and correct or enhance them.
Print out a copy |
Attachment 1: e142_daq2_cabling.ods
|
Attachment 2: Documentation_for_beamtime_2022_.doc
|
207
|
Mon Apr 11 10:31:07 2022 |
Kristian, Sebastian, Alexandre, Danyal, Paul | General | new laser wavelength scan range 322.41 - 322.00 nm | new wavelength scan range is 322.41 - 322.00 nm
at 10:31
Time | SIS-intensity | cooler-HV | LMD-DAQ1 file nr | LMD-DAQ2 file nr | scan range(nm) | step width(nm) | dwell time(s) | particles counted | comments
|
10:31 | 1.75e9 | 209617 | 0180 | 7915 | 322.41 - 322.00 | 0.002 | 5s | 2300 | ABORT ... no laser ... beam stabilization was off |
|
10:40 | xxe9 | 209617 | 0181 | 7916 | 322.41 - 322.00 | 0.002 | 5s | xxx | ABORT ... laser did not start from 322.41 nm |
|
10:42 | xxe9 | 209615 | 0182 | 7917 | 322.41 - 322.00 | 0.002 | 5s | xxx | ABORT ... laser did not start from 322.41 nm |
|
10:45 | 2.1e9 | 209616 | 0183 | 7918 | 322.41 - 322.00 | 0.002 | 5s | 9236 | HV E-cooler fluctuates slowly over 3 V |
|
11:22 | 1.7e9 | 209616 | 0184 | 7919 | 322.41 - 322.00 | 0.002 | 5s | xxx | |
|
12:02 | 2.0e9 | 209616 | 0185 | 7920 | 322.41 - 322.00 | 0.002 | 5s | 9660 | |
|
12:43 | 1.8e9 | 209618 | 0186 | 7921 | 322.41 - 322.00 | 0.002 | 5s | 6533 | HV E-cooler jump to ~209700k for ~10 seconds and than back to 209618 |
|
13:24 | 2.0e9 | 209617 | 0187 | 7922 | 322.41 - 322.00 | 0.002 | 5s | 9500 | |
|
14:05 | 2.0e9 | 209618 | 0188 | 7923 | 322.41 - 322.00 | 0.002 | 5s | 9220 | |
|
|
|
214
|
Mon Apr 11 22:33:16 2022 |
Carsten | General | Backup of data to the external RAID disks | |
222
|
Tue Apr 12 21:56:54 2022 |
Volker, David, Pierre-Michel & Danyal, Alexandre, Sebastian | General | new laser wavelength scan range 321.62 - 321.10 nm | New wavelength scan range is 321.62 - 321.10 nm. Before the new scan range (compare old scan range in Entry 215) was applied,
the cooler settings were slightly modified. Current was changed from 50 mA to 40 mA, correction voltage was changed from 3943 V to 3948 V. Additionally, the positions
of scraper NA was changed from -10 mm to -8 mm and scraper NI from +10 mm to +8 mm.
Time | SIS-intensity | cooler-HV | LMD-DAQ2 file nr | LMD-DAQ1 file nr | scan range(nm) | step width(nm) | dwell time(s) | particles counted | comments
|
21:57 | 1.55e9 | 209621 | 0226-0227 | 7962 | 321.62 - 321.10 | 0.002 | 5s | 7835 |
|
22:54 | 1.4e9 | 209612 | 0228 | 7963 | 321.62 - 321.10 | 0.002 | 5s | 3326 | PMT south voltage reduced to 2400 V before run, Threshold now 80, Cooler Voltage changed to 209628 V at 23:19
|
23:45 | 2.0e9 | 209628 | 0229-0230 | 7964 | 321.62 - 321.10 | 0.002 | 5s | 8560 |
|
00:34 | 1.7e9 | 209626 | 0231 | 7965 | 321.62 - 321.10 | 0.002 | 5s | 7169 |
|
01:29 | 1.1e9 | 209624 | 0232 | 7966 | 321.62 - 321.10 | 0.002 | 5s | 6412 |
|
02:19 | 1.75e9 | 209626 | 0233 | 7967 | 321.62 - 321.10 | 0.002 | 5s | 7590 |
|
03:06 | 1.6e9 | 209630 | 0234 | 7968 | 321.62 - 321.10 | 0.002 | 5s | 6329 |
|
03:58 | 1.7e9 | 209629 | 0235-0236 | 7969 | 321.62 - 321.10 | 0.002 | 5s | 7710 |
|
04:43 | 1.8e9 | 209629 | 0237 | 7970 | 321.62 - 321.10 | 0.002 | 5s | | Electron cooler went red @04:48
|
05:48 | 1.5e9 | 209623 | 0238 | 7971 | 321.62 - 321.10 | 0.002 | 5s | 9420 |
|
06:42 | 1.6e9 | 209616 | 0239 | 7972 | 321.62 - 321.10 | 0.002 | 5s | 8250 |
|
07:32 | 1.7e9 | 209621 | 0240 | 7974 | 321.62 - 321.10 | 0.002 | 5s | 8840 | file 7943 was started accidentally too early and killed
|
08:22 | 1.85e9 | 209622 | 0241 | 7975 | 321.62 - 321.10 | 0.002 | 5s | | ABORTED: laser did not start scanning
|
08:33 | 1.90e9 | 209624 | 0242-243 | 7976 | 321.62 - 321.10 | 0.002 | 5s | 9955 |
|
09:23 | 1.7e9 | 209624 | 0244-0245 | 7977 | 321.62 - 321.10 | 0.002 | 5s | 9021 | 09:50 Ecooler 12V drop for a few seconds; 9:52 again 12V E-cooler drop
|
10:12 | 1.85e9 | 20962x | 0246 | 7978 | 321.62 - 321.10 | 0.002 | 5s | 8067 |
|
11:10 | 1.7e9 | 209615 | 0247-248 | 7979 | 321.62 - 321.10 | 0.002 | 5s | 8905 |
|
11:59 | 1.94e9 | 209612 | 0249-0250 | 7980 | 321.62 - 321.10 | 0.002 | 5s | 8203 | drop in E-cooler voltage of 8V at about 12:16 (before there was a slow increase from .612 to .620)
|
12:48 | 2.0e9 | 209612 | 0251-0252 | 7981 | 321.62 - 321.10 | 0.002 | 5s | 8018 | E-cooler is not very stable (varies between .604 and .613) ; ~13:18 E-Cooler 18V jump to 209622V
|
13:36 | 1.7e9 | 209621 | 0253 | 7982 | 321.62 - 321.10 | 0.002 | 5s | 8170 |
|
|
|
Attachment 1: Ecooler12VdropOn13_04_22_9_52am.png
|
|
Attachment 2: Ecooler18VEcoolerJumpOn13_04_22_13_18pm.png
|
|
233
|
Fri Apr 15 12:42:18 2022 |
Max, Danyal, Carsten, Konstantin, Patrick, Simon | General | laser wavelength range changed: 320.12 - 319.60 nm |
Runs of the morning/afternoon/night shift. The wavelength range is now 320.12 - 319.60 nm.
Time | SIS-intensity | cooler-HV | LMD-DAQ2 file nr | LMD-DAQ1 file nr | scan range(nm) | step width(nm) | dwell time(s) | particles counted | comments
|
12:51 | 1.2e9 | 209617 | 0321 | 8034 | 320.12 - 319.60 | 0.002 | 5s | 5530 | ERS Trafo 1.25e7 --> 1.2e9
|
13:43 | 1.2e9 | 209617 | 0322 | 8035 | 320.12 - 319.60 | 0.002 | 5s | 6408 | at 13:49 there was a short broadening of the ion beam in the Schottky spectrum
|
14:35 | 1.16e9 | 209618 | 0323 | 8036 | 320.12 - 319.60 | 0.002 | 5s | 6585 |
|
15:30 | 1.08e9 | 209617 | 0324 | 8037 | 320.12 - 319.60 | 0.002 | 5s | 5701 |
|
16:20 | 1.10e9 | 209617 | 0325 | 8038 | 320.12 - 319.60 | 0.002 | 5s | 5470 |
|
17:11 | 1.11e9 | 209617 | 0326 | 8039 | 320.12 - 319.60 | 0.002 | 5s | 5519 |
|
18:00 | 1.08e9 | 209616 | 0327 | 8040 | 320.12 - 319.60 | 0.002 | 5s | 5402 | Ecooler voltage suddenly jumped to 109619 around 18:30. Laser spot seems to drift slowly to an inner position (left on the screen). This might be due to an interplay between a decreasing laser power and the position sensitive detectors of the beam stabilization.
|
18:52 | 1.16e9 | 209620 | 0328 | 8041 | 320.12 - 319.60 | 0.002 | 5s | 6948 |
|
20:39 | 1.13e9 | 209619 | 0329 | 8042 | 320.12 - 319.60 | 0.002 | 5s | 6xxx | Dye was changed before this run was started
|
20:32 | 1.20e9 | 209620 | 0330 | 8043 | 320.12 - 319.60 | 0.002 | 5s | 6948 |
|
22:25 | 1.21e9 | 209619 | 0331 | 8044 | 320.12 - 319.60 | 0.002 | 5s | 7120 | Night shift took over (Patrick, Simon)
|
23:15 | 1.26e9 | 209619 | 0332 | 8045 | 320.12 - 319.60 | 0.002 | 5s | 7080 |
|
00:06 | 1.25e9 | 209616 | 0333 | 8046 | 320.12 - 319.60 | 0.002 | 5s | 6500 |
|
00:59 | 1.23e9 | 209616 | 0334 | 8047 | 320.12 - 319.60 | 0.002 | 5s | 5380 |
|
01:50 | 1.30e9 | 209616 | 0335 | 8048 | 320.12 - 319.60 | 0.002 | 5s | 6750 |
|
02:41 | 1.38e9 | 209616 | 0336 | 8049 | 320.12 - 319.60 | 0.002 | 5s | 6970 |
|
03:32 | 1.37e9 | 209616 | 0337 | 8050 | 320.12 - 319.60 | 0.002 | 5s | 7010 |
|
|
Attachment 1: VoltageJump1830.PNG
|
|
84
|
Mon Mar 25 06:22:12 143 |
Ken Ueberholz | Detectors | XUV-Detector Rates | Count rates were measured for the XUV-
detector for a full circle:
Cathode: -5V, shields: 0V, main coil 8A,
sec coil 2A,
No beam - pos 0mm: ~10 Hz
Hot beam - pos 0mm: ~5 kHZ
Cool beam - pos 147mm: ~200Hz |
Attachment 1: Screenshot_20220404-000343_Gallery.jpg
|
|
Attachment 2: Screenshot_20220404-000327_Gallery.jpg
|
|
Attachment 3: Screenshot_20220404-000411_Gallery.jpg
|
|
8
|
Thu Oct 14 10:21:46 2021 |
Rodolfo | Detectors | Dismounting Cu-Mirror | We have dismounted the parabolic Cu-Mirror at ESR on 13.10.2021 |
Attachment 1: AusbauCuSpiegel_2021.jpg
|
|
12
|
Thu Mar 3 17:21:26 2022 |
Rodolfo | Detectors | MgF2 Windows | New reentrance viewports made of MgF2 have been installed at the ESR "Optical Detection Region". In the middle the old window (also MgF2) was kept into place. |
Attachment 1: ESR_Schaufenster_Spiegelkammer_10-02-2022.jpg
|
|
17
|
Wed Mar 16 12:04:40 2022 |
Kristian | Detectors | HV cable to particle detector South | Checked HV cable to particle detector south. Label is HV2 Scraper.
Connected to Messplatz III HV5 |
28
|
Wed Mar 23 11:20:55 2022 |
Simon | Detectors | PMT operating voltages | During the testing of the PMTs the following operating voltages were applied:
PMT Cu: -1300V
PMT Nord: -2500V
PMT Mitte: -1800V
PMT Süd: -1800V
Further optimization will be necessary during background measurements. |
30
|
Wed Mar 23 16:16:42 2022 |
V. Hannen | Detectors | Control software for XUV and copper mirror detector | Attached you find a manual for the software used to control the movement of the XUV detector and the copper mirror detector.
The software is also used to set the electrode voltages and coil currents of the XUV detector. |
Attachment 1: Manual.pdf
|
|
31
|
Wed Mar 23 16:58:33 2022 |
V. Hannen | Detectors | Status copper mirror and XUV detectors | Over the past days, the parabolic copper mirror and XUV detectors haven been prepared and tested for the upcoming beamtime (see first attached photo for an overview of the detectors).
The positioning of the mirror and the cathode of the two detectors in their central positions in the beampipe have been adjusted. To reach this central position, the XUV cathode has to be moved 147 mm out of the parking position, while the parabolic mirror has to be moved by 173 mm. While the parabolic mirror will most probably always be driven the full pathlength to make maximum use of the Doppler shift of the emitted photons, the cathode will be placed somewhere in between parking and beam position to minimize background while still having a good detection efficiency.
The MCP of the XUV detector is supplied with high voltage using an iseg 2 channel HV supply located in a NIM crate in the laser lab (see second photo). The required voltages are: +2400 V for the anode (upper channel) and +300 V for the MCP front (bottom channel).
The PMT of the copper mirror detector is supplied with HV by the same module as the PMTs on the new mirror chamber and has to be operated at a voltage of -1300 V.
The analog signals of both detectors are amplified by a factor 100 inside the ESR and patched through to the "Messhütte". For the MCP, the anode and MCP back signals are used (the MCP front signal is weak and noisy and doesn't give additional information). The MCP back signal has a positive polarity and is inverted in a linear Fan In/Out module in the NIM crate in the laser lab prior to discrimination.
To trigger the movement of the copper mirror and the cathode from their respective parking positions to the measuring positions and back during each filling cycle of the ESR, two signals labeled "trigger in" and "trigger out" need to be provided from the ESR. These signals have to be connected to the "START" inputs of the gate generator in the Messhütte shown in the third photo. The upper channel processes the "trigger out" signal, the lower channel the "trigger in" signal. From the gate generator the signals are patched to the laser lab, where they are multiplied and converted to TTL in the NIM crate shown in photo 2, and transfered to the detector control box using the adapter on top of the crate. Automatically moving the detectors in and out only works when the control software is running and the "Automation" radio buttons are checked (see software manual in Elog entry 30).
Still to be done:
- connecting the analog signals to CFDs in the Messhütte and subsequently to the TDC inputs
- determining dark count rates when all pressure gauges in the straight section on the detector side of the ESR are switched off
- check influence of new ion getter pump on the XUV detector dark count rate.
Should we not be around and help is needed with these detectors call:
Volker Hannen - 0176 50129187
Ken Ueberholz - 01578 5999489 |
Attachment 1: det-overview.jpg
|
|
Attachment 2: laserlab-crate.jpg
|
|
Attachment 3: trigger-module.jpg
|
|
40
|
Thu Mar 31 11:49:54 2022 |
Konstantin | Detectors | HV-Supply of particle detectors | We cross-checked the cabeling of the particle detectors north and south. Particle detector south is connected to channel HV5 at the yellow "ESR Messplatz III" patch-panel. Particle detector north is connected to channel K5 at the green "ESR Messplatz II" patch-panel. Red high voltage power-supply is used to control the voltage. |
42
|
Thu Mar 31 15:53:50 2022 |
Konstantin | Detectors | Control software for XUV and copper mirror detector | > Attached you find a manual for the software used to control the movement of the XUV detector and the copper mirror detector.
> The software is also used to set the electrode voltages and coil currents of the XUV detector.
We tested the remote access to the raspberry pi as explained in the manual attached to the original entry of Volker. It was tested from
the linux machine LXG1050. Attached you can find a screenshot of the running program. |
Attachment 1: XUV_Cu_GUI.png
|
|
53
|
Fri Apr 1 15:27:00 2022 |
Rodolfo | Detectors | Nitrogen for UV-PMTs | There was a question concerning the nitrogen we use to rinse the "Solar Blind PMTs".
- I have checked the nitrogen flow rate this afternoon (14:00) and it was a level of 0.2 LPM.
- I have increased this now to 0.4 LPM.
In the pictures below you can see where the "fine tunning" valves are located.
Bilder: R. Sánchez |
Attachment 1: Stickstoff_f_PMTs.jpg
|
|
Attachment 2: Stickstoff_Flussrate.jpg
|
|
54
|
Fri Apr 1 15:52:23 2022 |
Rodolfo | Detectors | UV PMT South | The "Solar Blind PMT" labeled as "PMT South" has been installed by Simon and Max in the gas target chamber on a CaF Viewport. The PMT is pointing directly to the center chamber.
- I have covered the support of the PMT and the flange with additional aluminum foil in order to try to reduce the straight light.
- I will check the signal of the PMT as soon as the lighting inside the cave will be turned off.
Bild: R. Sánchez |
Attachment 1: PMT_Sued_Target.jpg
|
|
55
|
Fri Apr 1 16:46:33 2022 |
Carsten | Detectors | All pressuzied air drives are tested now and are working properly | All pressuzied air drives are tested now and are working properly |
57
|
Fri Apr 1 18:30:38 2022 |
Carsten | Detectors | Positions / Voltages threshlds for particle detectors | DC beam 238U92+ (205kV, e-beam)
We used the detector NA_SZ to determine the central primary-beam (238U92+) position by observing the Schottky-signal while moving the detector inside.
The beam position is 43 mm (wehre the beam is almost gone").
NA_SZ
In the pocket of the NA_SZ we mounted the thick "old pilot U" scintilator since the original one foreseen is defect, see other post.
CFD Model CAEN N853
800V position 20mm pulse height 1V
750V position 10mm pulse height 0.82V, CFD, Ch7, 247, (247mV according to manual)
SA_SZ
Check positions and voltages of the detector behind the cooler
Yesterday the setting of the scope was x10, so the values written in that post were wrong.
At present we position -20, 1400V, pulseheight 1C, CFD, Ch6, 250 (250mV according to manual)
Scraping from the inside with NI_SZ touches the primary ion beam at 28 and destroys the beam at 27 mm. Thus, the beam presently is on a very inner orbit. |
58
|
Fri Apr 1 22:01:14 2022 |
Konstantin | Detectors | PMT operating voltages | > During the testing of the PMTs the following operating voltages were applied:
>
> PMT Cu: -1300V
> PMT Nord: -2500V
> PMT Mitte: -1800V
> PMT Süd: -1800V
>
> Further optimization will be necessary during background measurements.
Currently, PMT Süd shows a strange behavior resulting in after-pulses up to 1µs. Therefore, the high-voltage was reduced to -1500 V.
However, the after-pulses remain. This should be investigated in more detail at some other point. |
59
|
Fri Apr 1 23:12:37 2022 |
Patrick | Detectors | Scraper positions "only primary beam" |
Scraper positions where there is only primary beam for detector tests. Use only one outer and one inner scraper at the same time.
Move detectors out before new beam!
outer:
GE02DD2_G: 0mm
GE01DD2AG: -10mm
inner:
GE01DD2IG: 40mm |
60
|
Fri Apr 1 23:47:45 2022 |
Carsten | Detectors | PMT thresholds / PMT north does not allow voltage abow ~ -1kV | Checked thresholds of PMT with beam and without beam.
The PMT "south" which is now at the gas-jet target has burst-like pulses with a train of many short pulses of duration of about 1us. The signals are taken out of the ADC of the 2nd DAQ (but are still in the VUPROM TDC).
The PMT "middle" (broad-band VUV) has a quite high count rate of about 4-kHz at a few 10e7;; ions in the ring. The rate is very low without ions in the ring but it does not fully scale to low intensities.
At low intensities of a few 10e5;; we still have more than 100 Hz.
For a PMT voltage of -1800V a threshold of 20mV was set which is ok an d we leave it
Note: We see a noise beat of 6ns and 55ns with amplitude of about 15mV to 20mV. The high frequency disappears if we use a battery scope.
PMT "north" small-band VUV
We tried to put the voltage to the wanted level of -2500V. It was not possible to set a voltage higher than about -1000V. WIth this voltage the PMT draw a current of about 200uA and at a voltage above this value it dropped to zero and switched off.
We need to have a closer look at the PMT in the ESR tomorrow with some specialist knowledge. |
77
|
Sun Apr 3 11:40:48 2022 |
Shahab, Yuri | Detectors | 245 MHz Resonator tuned to new frequency | resonance frequency changed from 243.2 MHz to 244.692 MHz by reducing the value of both of the plungers from 395 to 325. Now after movement, the peak is on the resonance. |
Attachment 1: Screenshot_2022-04-03_at_11.24.15.png
|
|
97
|
Tue Apr 5 13:24:40 2022 |
Kristian | Detectors | PMT Cu | HV cable was in wrong channel in power supply. Now it is back to the correct position. Checked connection at the PMT. |
115
|
Wed Apr 6 19:39:08 2022 |
Ken Ueberholz | Detectors | LED installed | The UV-LED of Münster was connected over
channel 8 to the Messhütte. 6V are
supplied by the power supply (picture 2).
The Led is located at the xuv detector
(picture 1). |
Attachment 1: 20220406_193541.jpg
|
|
Attachment 2: 20220406_193439.jpg
|
|
116
|
Wed Apr 6 21:03:25 2022 |
Ken Ueberholz | Detectors | Xuv-Detektor, further information | Some further information regarding the
xuv-detector and its components. |
Attachment 1: xuv_detektor.pdf
|
|
129
|
Thu Apr 7 05:55:17 2022 |
Ken Ueberholz | Detectors | XUV-Detector Mesytec crash | When the XUV-detector has to shut down unexpectedly, it can happen that the Mesytek power supply crashes and can't be
communicated with. If this happens the Mesytec PS needs to be restarted from hand inside of the ESR. This can be done by
restarting the crate located at the bottom of the XUV-detector.
This crash happened during the night shift today and the Mesytec should be restarted today as soon as possible. For
example when the laser stabilization gets fixed.
In normal operation this should never happen if no mistakes are made. |
137
|
Thu Apr 7 14:01:22 2022 |
Sebastian, Max | Detectors | Mesytec reset | The Mesytec crate was turned off and on again.
It is again possible to communicate with the XUV detector via python to apply voltage and current. |
139
|
Thu Apr 7 14:13:27 2022 |
Danyal | Detectors | new PMT south | I have replaced the PMT south (looks at the gas target).
in the hope that this will produce less dark counts.
Thus far, the dark countrate is low (few Hz).
brand: ET enterprises
type: 2" photomultiplier, 9423B
High voltage: -2.45 kV (up to -3.5 kV)
spectral range: 110 - 230 nm
The power comes from an additional 2.5 kV supply.
(I have changed the cable: was CH0 before) |
141
|
Thu Apr 7 16:45:10 2022 |
| Detectors | Detector distances | Relativ distances of the detector |
Attachment 1: 20220407_164345.jpg
|
|
150
|
Fri Apr 8 05:46:35 2022 |
V. Hannen | Detectors | High background rate in Cu PMT points to light leak in ESR or active pressure gauge | The background rate of the Cu mirror PMT is only about 300 cps when the mirror is in the parking position but ca. 7000 cps when in the beam position, even if no beam is present in the ESR. This was noticed when we had an "empty injection" into the ring, causing the Cu mirror to drive into the beam position with no ions present.
This means either we have a light leak somewhere on the detector side of the ring, e.g. a not perfectly covered window, or we have a pressure gauge operating still to close by (during the LIBELLE experiment we turned off all pressure gauges on the detector side of the ESR not only in the straight section but also somewhat into the bends). This has to be checked the next time we can enter the ring. |
165
|
Fri Apr 8 14:46:02 2022 |
Danyal & Sebastian & Volker & Ken | Detectors | high dark countrate Cu PMT solved | The problem - "discovered" by Volker and Ken - of the high dark countrate of the Cu PMT has been solved.
(when the Cu mirror was moved in, the dark countrate was very high ... also without ion beam)
I asked Graziano Savino to check the vacuum gauges along the target side of the ESR (west side).
The gauges at the laser window sections (which we do not use here!) - NW and SW - were still on.
Volker remembered that, in the past, for the lowest dark countrate at the Cu PMT --> ALL GAUGES MUST BE SWITCHED OFF.
Graziano turned them off and Sebastian and I checked the Cu PMT rate in DAQ1.
Attached you can clearly see the difference: from 7500 cps to 400 cps.
When the Cu mirror is retracted the dark countrate is 200 cps.
Danyal
PS The slow increase in one plot is due to the fact that Graziano switched on the light in the ESR. |
Attachment 1: IMG_20220408_082804.jpg
|
|
Attachment 2: IMG_20220408_083031.jpg
|
|
191
|
Sun Apr 10 03:56:56 2022 |
V. Hannen | Detectors | Low rate in PMT South | PMT south shows a much lower count rate than observed in elog entry 170.
Yesterday the voltage on this PMT was increased to 2400 V and the threshold setting of the CAEN CFD to 90 units, (from 70 units before) however the low readout rate was already apparent both for the analog and the discriminated signal then.
Update Sun Apr 10, 21:45: on advice from D. Winters, increased the PMT voltage to 2500 V (max. the HV supply can do, the PMT could handle up to 3000 V) |
Attachment 1: 2022-04-10_PMTs_over_wavel-03_56.png
|
|
217
|
Tue Apr 12 13:24:40 2022 |
Alexandre, Sebastian | Detectors | Sideband in Schottky | Sometimes we see a broad sideband at lesser schottky frequencies to the high intensity thorium beam.
Pic 1 shows the relative broad sideband on the left.
Pic 2 depicts the vanishing of the sideband after ~1-2 minutes. |
Attachment 1: IMG_20220412_125530_resized_20220412_125736155.jpg
|
|
Attachment 2: IMG_20220412_125643_resized_20220412_125736537.jpg
|
|
218
|
Tue Apr 12 14:11:52 2022 |
Ragan | Detectors | Sideband in Schottky | > Sometimes we see a broad sideband at lesser Schottky frequencies to the high-intensity thorium beam.
>
> Pic 1 shows the relative broad sideband on the left.
>
> Pic 2 depicts the vanishing of the sideband after ~1-2 minutes.
These are not the sidebands. Maybe some short-lived fragments survive even after the scrapers are used? |
219
|
Tue Apr 12 14:52:19 2022 |
Rodolfo | Detectors | PMT Nord, Middle. Datasheets | Attached are the datasheets for the solar-blind PMTs.
- PMT Nord. Type 9423. SN: 650
- PMT Middle. Type 9422. SN: 1049 |
Attachment 1: ET-Enterprises_DataSheets_PMT_9423-9422.pdf
|
|
221
|
Tue Apr 12 17:01:30 2022 |
Konstantin | Detectors | Voltage PMT North | Voltage of PMT North has been increased from 2500 V to 2600 V. Additionally the threshold was adapted from 25 mV to 12 mV. |
228
|
Thu Apr 14 12:27:18 2022 |
Sebastian, Max | Detectors | Connection to XUV / Cu reestablished! | The connection to the XUV and Cu were lost during the nightshift.
The XUV detector was in the park position,
BUT the Cu mirror was in the "Measurement position" (moved in / active).
This could be one of the main problems that we had much lesser ion beam intensity since the UNILAC and SIS18 failures last night. |
229
|
Thu Apr 14 12:38:38 2022 |
Sebastian | Detectors | XUV / Cu checkups | Check regularly if the connection to the XUV and Cu detectors are still active and the detectors move in (after injection) and out (after killing the ion beam).
Therefore, 2 programs should run on the computer where you can also see the running Schottky.
One of the programs is for the XUV and one is for the Cu mirror.
There the Automisation button should be activated!!!
ID 30 contains the manual how to run / start and operate both detectors. |
5
|
Fri Aug 6 10:23:00 2021 |
Rodolfo | DAQ | atplaser on r4l-41 | The user atplaser is now existing on the R4L-XY nodes for the ESR group.
R4 = RIO4 Computer
L = Linux
XY = node number.
The laser experiments are using the node XY = 41, which is located in the ESR Messhütte. From a Linux terminal one can access this node by using
$ ssh atplaser@r4l-41 |
6
|
Fri Aug 6 10:40:54 2021 |
Rodolfo | DAQ | mbs in atplaser | The "MBS program" (data acquisition) is now located within atplaser@r4l-41, in the folder "th21":
R4L-41 atplaser > pwd
/esr/usr/atplaser/mbsrun/th21
R4L-41 atplaser > ls -l
total 412
-rw-r--r-- 1 atplaser esr 3326 Jul 21 13:42 #Makefile#
-rw-r--r-- 1 atplaser esr 18675 Jul 19 10:43 #f_user.c.lc21wlv#
-rwxr--r-- 1 atplaser esr 3324 Jul 21 13:17 Makefile
-rw-r--r-- 1 atplaser esr 2803 Jul 13 10:59 Makefile.lynx
-rw-r--r-- 1 atplaser esr 3324 Jul 13 10:59 Makefile.test
drwxr-xr-x 2 atplaser esr 4096 Jul 13 10:59 dump
-rw-r--r-- 1 atplaser esr 8032 Aug 2 13:06 f_user.c
-rw-r--r-- 1 atplaser esr 18673 Jul 14 10:39 f_user.c.lc21wlv
-rw-r--r-- 1 atplaser esr 6368 Jul 21 11:01 f_user.c.lynx
-rwxr--r-- 1 atplaser esr 18843 Jul 23 11:09 f_user_wlvc.c
-rw-r--r-- 1 atplaser esr 49 Jul 13 10:59 filenum.set
-rw-r--r-- 1 atplaser esr 8181 Jul 13 10:59 include
-rwxr-xr-x 1 atplaser esr 162908 Aug 2 13:07 m_read_meb
-rw-rw-rw- 1 atplaser esr 81056 Aug 5 19:07 mbslog.l
drwxr-xr-x 2 atplaser esr 4096 Jul 13 10:59 scom
-rw-r--r-- 1 atplaser esr 13154 Jul 13 10:59 setup.usf
-rw-r--r-- 1 atplaser esr 94 Jul 13 10:59 shutdown.scom
-rw-r--r-- 1 atplaser esr 320 Jul 13 10:59 st.scom
-rw-r--r-- 1 atplaser esr 290 Jul 22 15:23 startup.scom
-rw-r--r-- 1 atplaser esr 525 Jul 13 10:59 startup.scom.lynx
drwxr-xr-x 2 atplaser esr 4096 Jul 13 10:59 suha
-rw-r--r-- 1 atplaser esr 18999 Jul 13 10:59 vuprom_tdc_v5.h
Note: This MBS-Version was used previously by Sebastian in "laser cooling 21". |
9
|
Fri Nov 5 17:23:23 2021 |
Rodolfo | DAQ | Dye trigger out | The dye laser offers different scan settings (see pages 65 - 67 of the user manual). We are using the following setting, see attached screenshot, to produce the status "laser busy" for the DAQ.
This Output Trigger CH1 is then strobed coincidence with the 1 MHz clock. |
15
|
Thu Mar 10 15:20:26 2022 |
Jan | DAQ | analog branch signal patches to Messhütte | The additional signals from PMTs and XUV detector needed for spectroscopic analysis in the second DAQ are patched to AP Messhütte (MH) via the red patch panel at the inside of the target region. The patch channels F1 to F8 (also labeled A to H in red on white) are used and extended by a cable bundle to reach below the mirror chamber. Inside the MH the signals arrive at the red patch panel and are forwarded to the blue patch panel close to the laser DAQ using channels 1 to 8 (also labeled A to H).
The entire connection for these 8 channels from the mirror chamber to the blue panel has been tested with a pulser signal of ~115mV amplitude. After transfer the amplitude has decreased to ~40mV, see also attached fotos.
The signal transport time from the mirror chamber to the blue panel is ~407 ns. This was measured by patching a logic puls from ESR to MH and back to ESR, as show in the delay_ESR... foto attached. |
Attachment 1: red_panel_ESR.jpg
|
|
Attachment 2: pulser_signal_ESR.jpg
|
|
Attachment 3: pulser_signal_MH.jpg
|
|
Attachment 4: delay_ESR-MH-ESR.jpg
|
|
Attachment 5: cable_bundle_mirror_chamber.jpg
|
|
16
|
Wed Mar 16 08:31:52 2022 |
Kristian | DAQ | Check cables and timing | Konstantin and I generated a signal in the Messhütte and sent it to the ESR.
There, we used a 44m BNC cable that was sufficently long to reach all detectors.
Our signal was connected instead of the PMT/PD. Hence, it was a roundtrip measurement.
In the Messhütte we checked the delay between the generated signal.
PD North 1460(1)ns
PD South 1455(1)ns
Particle North 1239(1)ns
Particle South 1179(1)ns
UV North 1322(1)ns
UV Middle 1322(1)ns
UV South 1321(1)ns
Cu 1322(1)ns
We also checked the time delay of our cable to the detectors by measuring the reflection of the unterminated cable.
Function generator to detector: 1520(5)/2 ns
Function generator to scope: 5.1(5) ns
Total: 765(3) ns |
21
|
Fri Mar 18 16:51:27 2022 |
Carsten | DAQ | Main DAQ /MBS error | MBS error "TDC data ready wait" solved. Common stop trigger (20 kHz) was missing. (according to Sebastian) |
24
|
Mon Mar 21 10:46:18 2022 |
Rodolfo | DAQ | TDC & Scaler description channels | For the First Vuprom we have the following channel configuration (Stand:21.03.2021).
Please note 1.
- CH 0 to CH 15 are the TDC channels
- CH 16 to CH 31 are the SCALER channels
Please note 2.
This is still under construction |
Attachment 1: Screenshot_TLdaInputDescription_21-03-2022.JPG
|
|
25
|
Mon Mar 21 16:33:23 2022 |
| DAQ | Changing code of go4 | We agreed to indicate changes in the go4 analysis code according to the
following scheme
\\--2022-mm-dd HH:MM comment on the respective change.
Example:
\\--2022-03-16 16:03 Changed variable N_BUNCHES from 4 to 2
This should allow to find the most recent changes by using the search
function of the applied text editor. |
26
|
Mon Mar 21 17:03:47 2022 |
| DAQ | Changing code of go4 | Correction: Comments in C/C++ start with // , i.e. forward slash
//--2022-mm-dd HH:MM comment on the respective change.
Quote: | We agreed to indicate changes in the go4 analysis code according to the
following scheme
\\--2022-mm-dd HH:MM comment on the respective change.
Example:
\\--2022-03-16 16:03 Changed variable N_BUNCHES from 4 to 2
This should allow to find the most recent changes by using the search
function of the applied text editor. |
|
27
|
Mon Mar 21 21:48:46 2022 |
Jan | DAQ | MesyTec Shaper Control | The MesyTec Shaper & Constant Fraction (MSCF) is used to process the PMT/det signals for the ADC in the second DAQ.
It can be setup on its front panel, but single channel setup is very tedious.
Remote control of the settings is possible using an epics server and client.
All of the following is done with the "litv-exp" user:
server: atpnuc001 (in the screen session "E142")
client: lxg1275
The server should run undisturbed, but in case of a power failure, you can start the server like this:
> ssh litv-exp@atpnuc001
> cd e142
> ./E142_start_ioc.sh
To check server:
> ssh litv-exp@atpnuc001
> screen -x (CTRL-a CTRL-d to leave screen)
To connect the client gui for remote control, do:
> ssh litv-exp@lxg1275
> E142_epics
The panel is more or less self-explaining.
One thing has to be noted: the Monitor Channel selection is shifted by -1.
I.e., [ch 1] is button [0], etc.
The MSCF settings can be stored and loaded to/from file by using a bash-script.
The settings will be saved/loaded from:
/u/litv-exp/e142/mscf_settings/
files names are "setting_e142.<linux_timestamp>"
The scripts are also in /u/litv-exp/e142/mscf_settings/
use
./mscf_save.sh for saving the current settings to a new file
use
./mscf_load_last.sh to load the last settings file (by timestamp in the filename)
use
./mscf_load_file.sh <filename> to load the settings of a specific file |
32
|
Thu Mar 24 13:27:47 2022 |
Rodolfo | DAQ | Disk space - LXG1297 | In our Linux computer (LXG1297: Laser spectroscopy) we have a Drive with 1.8 TB total disk space. 300 GB are at the moment in use, but I can clean this.
This computer is located in the "Atomphysik Messhütte". |
Attachment 1: DiskSpace_lxg1297.JPG
|
|
34
|
Thu Mar 24 17:10:33 2022 |
Carsten | DAQ | DAQ / MBS VUPROM TDC buffer errors | VUPROM TDC buffer errors potentially due to long TDC common Stop gate (>1ms from div 200).
Signal piped through coinc. unit gicv es shorter sginal (~200ns). This signal used as common stop seems to have cured the TDC buffer errors.. |
41
|
Thu Mar 31 13:28:17 2022 |
Jan Glorius | DAQ | DAQ-2 cabling docu | newest version V2 - valid since Mo 04.April 2022 |
Attachment 1: e142_daq2_cabling.pdf
|
|
Attachment 2: e142_daq2_cabling_V2.pdf
|
|
Attachment 3: e142_daq2_cabling_V2.ods
|
43
|
Thu Mar 31 17:56:32 2022 |
Konstantin | DAQ | Photodiode test signal | We used a signal generator to provide a 4MHz dummy-RF signal. This was divided by a factor of 2 for laser-"bunch" synchronization and by a factor of 200 for to provide the stop-tigger attached to the DAQ. With this Dummy-RF we were able to measure the relative arrival times of the laser at the photodiodes located in the laser towers. Note that the signal of the southern photodiode arrives first. This is because the scale of the time axis is given in (10/3ns)-bins since the last common-stop. |
Attachment 1: Timing_Photodiodes.png
|
|
44
|
Thu Mar 31 20:07:47 2022 |
Shahab | DAQ | Schottky Display in AP Messhütte (or anywhere else) | UPDATE: 16.05.2022
Please use ATPPC029 instead of ATPPC019 for the 245 MHz Schottky
Alternatively you can use ATPPC030 for viewing the 410 Schottky
we let this setting go for a while, in case of problems we go back to the settings below.
Bests
Shahab
----------------------------------------------------------------------------
Schottky can be displayed using GSI's standard remote desktop connection from any standard GSI computer that is connected or registered with GSI's
cable network.
On windows choose --> remote desktop connection
On Linux choose --> KRDC or from command line prompt you cab also use XFREERDP)
On Apple choose --> Microsoft Remote Desktop
then connect using experiment account using RDP protocol:
atlaser@atppc019.gsi.de
enter password
on desktop there is an icon called "SignalVu Schottky"
On the menu --> Instrument --> Connect --> USB device
245 MHz resonator: RSA607A::B021694
410 MHz resonator: RSA607A::B021705
by default you can use the 245 MHz resonator.
default setting is set to 244 MHz and span 20 MHz, if there is a beam in ESR you will see it.
have fun!
https://apps.apple.com/us/app/microsoft-remote-desktop/id1295203466?mt=12
if you like to use xfreerdp, here is the syntax:
xfreerdp -g 2560x1420 -u atplaser atppc019.campus.gsi.de |
Attachment 1: 04_PM_schottky.png
|
|
45
|
Thu Mar 31 22:19:14 2022 |
Kristian | DAQ | How To Start MBS | (MBS server should be running at the LXG1297 machine. If not you will get an error message. Then start the server - last command in console)
Just enter the following commands in the console of any PC
ssh atplaser@r4l-41
ThE142_2022
resl
cd mbsrun/th22
mbs
@startup
connect rfio lxg1297 -disk
open file lxg1297:/data.local2/BeamTimeTh22/229Thor -auto -rfio
sta ac
To stop MBS enter the following commands
sto ac
close file
disconnect rfio
@shutdown
exit
resl |
49
|
Fri Apr 1 01:57:12 2022 |
Kristian | DAQ | Timing | with bunched primary beam (bunching frequency 1.94070 MHz) we have strong PMT (mid) and particle detector signal. Time between both detectors was measured (in 3.3ns bins)
Particle Det ; PMT (rising edge)
305 ; 256
227 ; 179
150 ; 102
73 ; 24
PD and PMT signal is second plot. Laser timing was not adjusted jet since it will change with Th beam. |
Attachment 1: Particle-PMT_Mid.png
|
|
Attachment 2: PMT-PD.png
|
|
Attachment 3: IMG_20220331_235846.jpg
|
|
51
|
Fri Apr 1 11:00:41 2022 |
Rui-Jiu Chen | DAQ | Start NTCAP | Start taking data with NTCAP.
Carrier Frequency: 245MHz
IQ rate:5 MSamples/s
Reference level -0 dBm.
RF - Attenuation:40 dB
IF attenuation: 19.9288 dB
Date Files:
Samples/Record:2^18=262144
Records/File:2^12=4096
Masterpath: p:\E142\iq\IQ_2022-03-30_09-39-26
p:\E142\sc\SC_2022-03-30_09-39-26
Free space: o diver: 34.9TB. p driver: 34.8TB. |
52
|
Fri Apr 1 11:19:57 2022 |
Rui-Jiu Chen | DAQ | S.M.A.R.T check on NTCAP | S.M.A.R.T. check has been done on NTCAP on March 28th. All 12 hard disk drivers are normal. |
Attachment 1: image001(04-01-11-10-06).jpg
|
|
79
|
Sun Apr 3 12:35:17 2022 |
Max | DAQ | Go 4 manual | How to start go4?:
- go to console
- change directory to '/u/atplaser/go4/th22' by typing 'cd /u/atplaser/go4/th22' in the command prompt
- [OPTIONAL]: If go4 has not been started from this shell before type '. go4login64.sh'
- go4 &
- click on Launch analysis (see picture go4_1)
- click OK on the first pop-up window
- to get current data stream: enter event source: "MBS STREAM SERVER" and name: "r4l-41" (see picture go4_2), Click Submit+Start
- to analyze old data: select old .lmd file
- click on icon with three green arrows (see picture go4_3)
- click on Analysis -> Histograms -> Step2_Anl. Relevant data can be found under: "Trending" or "TDC"
if ESR bunch frequency has changed:
- open /u/atplaser/go4/th22/TLdaAnlProc.cxx in Geany (if not already opened)
- in line 490 change variable periodInBins to current frequency (frequency in e6 between /)
- close go4 and go to console
- make clean
- make all
- reopen go4 again |
Attachment 1: go4_1.png
|
|
Attachment 2: go4_2.png
|
|
Attachment 3: go4_3.png
|
|
85
|
Mon Apr 4 00:19:16 2022 |
Ken Ueberholz | DAQ | FirstTests | New measurement:
Start: About 00:12
Stop: About 00:43
LMDfile: 229ThFirstTest7775.lmd-229ThFirstTest7776.lmd
First tries to see the bunched ions with full test experiment circle and detectors.
Bunching visible in xuv-anode, sa_sz, PMT-south, PMT-north.
Bunches seem to be very wide, possible wrong revolution frequency set in the DAQ.
PD NO doesn't see the laser, screen prop. still in front of the window.
7e8 ions in the SIS
Standard XUV-settings
Several DAQ crashes and errors
New measurement:
Start: About 02:00
Stop: About 02:30
LMDfile: 229ThFirstTest7780.lmd
Same test with new freq: 3.90415MHZ and without screen.
Nice Bunches in particle detector. Broad bunches in detectors.
Errors in DAQ
PD not working correctly or laser wrongly setup.
4.3e8 ions in the SIS
Standard XUV-settings |
Attachment 1: 44_AM.png
|
|
Attachment 2: 06_AM.png
|
|
87
|
Mon Apr 4 15:27:31 2022 |
Sebastian | DAQ | PMT over wavelength histogram | Kristian and I tried to create a "PMT over wavelength" histogram under step2Anl/LabView.
Unfortunately, the code ist still in progress and does not work yet.
The current code can be found in the TldaAnlProc.cxx |
88
|
Mon Apr 4 15:32:38 2022 |
Kristiand & Sebastian | DAQ | Go4 Backup Code | Due to some code changes (PMT over wavelength historgram) Kristian and I backuped a working Go4 code in the current go4 folder on the atplaser linux account.
It can be found in the subfolder "working go4 code 4.4.2020"
Nevertheless, the "normal" Go4 code in the th22 folder still works. |
89
|
Mon Apr 4 16:26:04 2022 |
Carsten | DAQ | Backup Harddisk /External Disk | Since we cannot write on lustre, as a temproal solution two RAID 1 (mirror) USB hard disks with cpacity 6 TB each are installed.
The disk on the lxg1297 the disk can be accessd at /meida/sdd2
an on the lxg0155 at /media/sdc2
Regular backups should be written to these disks but NOT during data taking.
If we run out of local disk space /data.localx on the machines they could also be used as target for mbs.
Pleae check regularly if there is enough spance on the local disks. |
90
|
Mon Apr 4 17:26:48 2022 |
Jan Glorius | DAQ | MSCF shaper settings | attached are the current shaper settings.
list of currently connected channels:
ch2: mid x1
ch4: Cu x1
ch6: mid x2
ch8: Cu x2
ch9: XUV x1
ch10:XUV x2 |
Attachment 1: setting_e142.start3
|
1649085859
Mon Apr 4 17:24:19 CEST 2022
e127pi:mrcc:mscf2:getGainCommon 15
e127pi:mrcc:mscf2:getShapingTimeCommon 0
e127pi:mrcc:mscf2:getThresholdCommon 200
e127pi:mrcc:mscf2:getPzCommon 255
e127pi:mrcc:mscf2:getGain1 15
e127pi:mrcc:mscf2:getGain2 10
e127pi:mrcc:mscf2:getGain3 15
e127pi:mrcc:mscf2:getGain4 15
e127pi:mrcc:mscf2:getShapingTime1 0
e127pi:mrcc:mscf2:getShapingTime2 0
e127pi:mrcc:mscf2:getShapingTime3 0
e127pi:mrcc:mscf2:getShapingTime4 1
e127pi:mrcc:mscf2:getThreshold1 255
e127pi:mrcc:mscf2:getThreshold2 2
e127pi:mrcc:mscf2:getThreshold3 200
e127pi:mrcc:mscf2:getThreshold4 2
e127pi:mrcc:mscf2:getThreshold5 222
e127pi:mrcc:mscf2:getThreshold6 2
e127pi:mrcc:mscf2:getThreshold7 200
e127pi:mrcc:mscf2:getThreshold8 10
e127pi:mrcc:mscf2:getThreshold9 1
e127pi:mrcc:mscf2:getThreshold10 10
e127pi:mrcc:mscf2:getThreshold11 255
e127pi:mrcc:mscf2:getThreshold12 255
e127pi:mrcc:mscf2:getThreshold13 100
e127pi:mrcc:mscf2:getThreshold14 255
e127pi:mrcc:mscf2:getThreshold15 255
e127pi:mrcc:mscf2:getThreshold16 255
e127pi:mrcc:mscf2:getPz1 100
e127pi:mrcc:mscf2:getPz2 100
e127pi:mrcc:mscf2:getPz3 100
e127pi:mrcc:mscf2:getPz4 100
e127pi:mrcc:mscf2:getPz5 100
e127pi:mrcc:mscf2:getPz6 100
e127pi:mrcc:mscf2:getPz7 100
e127pi:mrcc:mscf2:getPz8 100
e127pi:mrcc:mscf2:getPz9 100
e127pi:mrcc:mscf2:getPz10 100
e127pi:mrcc:mscf2:getPz11 100
e127pi:mrcc:mscf2:getPz12 100
e127pi:mrcc:mscf2:getPz13 100
e127pi:mrcc:mscf2:getPz14 100
e127pi:mrcc:mscf2:getPz15 100
e127pi:mrcc:mscf2:getPz16 100
e127pi:mrcc:mscf2:getSingleChMode 1
e127pi:mrcc:mscf2:getRcMode 1
e127pi:mrcc:mscf2:getAutoPZ 18
e127pi:mrcc:mscf2:getMultiplicityHi 8
e127pi:mrcc:mscf2:getMultiplicityLo 0
e127pi:mrcc:mscf2:getSumTrgThresh 18
e127pi:mrcc:mscf2:getBlrOn 1
e127pi:mrcc:mscf2:getCoincTime 121
e127pi:mrcc:mscf2:getThreshOffset 70
e127pi:mrcc:mscf2:getShaperOffset 35
e127pi:mrcc:mscf2:getBlrThresh 25
e127pi:mrcc:mscf2:getECLDelay 18
|
91
|
Mon Apr 4 19:05:57 2022 |
Carsten | DAQ | Cooler Frequency Signals Ion current not connected until now | Up to now the signals for
Ion Current
Cooler elctron current
Cooler voltage (frequency)
were not connected to the DAQs et al.
Cables in the "rded corner", i.e. where their original soruce is were not connected !!! |
92
|
Tue Apr 5 08:00:50 2022 |
Kristian & Sebastian | DAQ | MBS Channellist (so far) | MBS Channellist (time 5.4.2022)
0 Anode
1 Front
2 Back
3 PMT Süd
4 PMT Mitte
5 PMT Nord
6 PMT Cu
7 Par Det Süd
8 Par Det Nord
9 1kHz from clock generator ???
10 empty
11 empty
12 delayed common stop ???
13 PD NO
14 PD SO
15 Q-Switch
16 DC Trafo
17 Injection
18 U-Ecool
19 I-Ecool
20 P-Gun
21 P-Coll
22 Divided RF
23 1 Mhz Clock
24 empty
25 empty
26 empty
27 dye out (1MHz)
28 empty
29 detector in (1MHz)
30 Laser step complete
31 Laser scan complete |
95
|
Tue Apr 5 11:14:52 2022 |
Sebastian, Kristian, Pierre-Michel | DAQ | PMT over wavelength histogram v2 | Today we finalized the PMT over wavelength histogram in:
Analysis/Histograms/Step2_Anl/LabView/laserscan
Currently the histogram shows the PMT middle signal on the y axis.
Remark: Tomorrow we create this kind of histogram for all PMTs. |
96
|
Tue Apr 5 12:17:12 2022 |
Ragan, Rui-Jiu | DAQ | Instructions to start and stop NTCAP | Attached are the instructions to start and stop data taking using the NTCAP. |
Attachment 1: Start_data_taking.pdf
|
|
Attachment 2: Stop_data_taking.pdf
|
|
Attachment 3: Start_data_taking.png
|
|
Attachment 4: Stop_data_taking.png
|
|
98
|
Tue Apr 5 13:28:06 2022 |
Kristian | DAQ | Spikes in PMT signal | Occasionally, we noticed a spike in the PMT signal. No ions in the ring and at PMT Cu was not even supplied with HV. Has to be some electronic pickup |
Attachment 1: spike.png
|
|
99
|
Tue Apr 5 14:51:51 2022 |
Kristian | DAQ | dark counts | We shielded the PMTs, i.e., the N2 tube, which improved the Cu PMT background rate.
Without beam and ESR lights off:
PMT Mitte: 4 Hz
PMT Nord: 1 Hz
PMT Cu: 240 Hz |
100
|
Tue Apr 5 15:25:47 2022 |
Sebastian, Kristian, Pierre-Michel | DAQ | Go4 Conditions for "TDC_stacked_Sig/Ref" histogram | First version of TDC_stacked histograms implemented.
Under folder "Conditions" you can now integrate over user defined Limits (Xmin and Xmax). |
105
|
Wed Apr 6 08:06:02 2022 |
Danyal | DAQ | stopped NTCAP data acquisition | I stopped the NTCAP data acquisition at 8 AM.
Let's hope that the file contains good data. |
108
|
Wed Apr 6 13:32:57 2022 |
Max, Sebastian | DAQ | LabView Cobra Channel List | channel 0: linux time (epoch time)
channel 1: ms timer
channel 2: E-Cooler Voltage(Ohmlabs)
channel 3: Cobra Set Wavelength
channel 4: WS7 wavelength
channel 5: WS7 frequency
channel 6: WS7 status
channel 7: Status keysight (?)
channel 8: WS7 pressure (?)
channel 9: CobraMotorPosUpperPart
channel 10: CobraMotorPosLowerPart
channel 11: CobraNumberOfLoop
channel 12: StatusCobra
channel 13: WS7 temperature (?)
channel 14: CobraFromWavelength (higher wavelength)
channel 15: CobraToWavelength (lower wavelength)
channel 16: CobraIncrement
channel 17: CobraStepNr
channel 18: status?
channel 19: PTB divider (not connected to cooler)
channel 20: ?
|
119
|
Thu Apr 7 00:36:36 2022 |
Uwe | DAQ | Threshholds and shaping Mesytec for ADC | |
Attachment 1: snapshot3.png
|
|
122
|
Thu Apr 7 03:06:15 2022 |
Patrick | DAQ | DAQ file sizes | The file sizes of DAQ1 (229Thor) and DAQ2 (229Th, "Carstens DAQ") are different.
During 20min of laser scanning DAQ1 saves 4 files while DAQ2 saves 2 files which was 3.3 GB and 2 GB, respecively.
The file sizes of DAQ2 should always be greater than those of DAQ1, because of extra ADC data!
The problem seems to be solved after the recabling ID: 125. |
123
|
Thu Apr 7 03:09:36 2022 |
Carsten | DAQ | NTCAP running since 02:40 | |
124
|
Thu Apr 7 03:44:21 2022 |
Patrick | DAQ | Measurement procedure | Measurement procedure
- The laser hits the screen 'NO' (atppc017) right side of the burn spot
- Be ready to start a laser scan
- Scan laser goes into wavemeter!
- Have mbs connected
- Have go4 connected
Preparation done
- 'open file (...)' for DAQ1 & DAQ2
- request a new beam
- check scraping
- 'sta ac' for DAQ1 & DAQ2
- start laser scan
laser scan started
- 'sh ac' for DAQ1 & DAQ2
- check that acquisition is RUNNING and file is OPENED
- fill in table information in the ELOG.
laser scan complete
- 'sto ac' for DAQ1 & DAQ2
- 'close file'
- check if preparation is still fulfilled
- repeat from Preparation done |
125
|
Thu Apr 7 04:10:18 2022 |
Ken Ueberholz | DAQ | Corrected cabling DAQ 2 | A lot of cables were wrongly or not
connected to the DAQ 2.
Channels are now for both DAQ:
0 XUV-Back
1 XUV-Anode
2 XUV-Anode-delayed
3 PMT-South
4 PMT-Middle
5 PMT-North
6 PMT-Cu
7 Part-det-south
8 Part-det-north
9 1kHz
10 -
11 -
12 Delay-common-stop
13 PD-NO
14 PD-SO
15 Q-switch
All data taken by the DAQ2 has to be
considered as faulty up to now.
Carsten was furious. |
Attachment 1: 20220407_043337.jpg
|
|
127
|
Thu Apr 7 05:23:50 2022 |
Patrick | DAQ | How To Start MBS for DAQ2 (Carstens DAQ) | (MBS server should be running at the LXG0155 machine. If not you will get an error message. Then start the server - last command in console)
Just enter the following commands in the console of any PC
ssh stoe_exp@r4l-68
*** Password on a sheet of paper ***
resl
cd /esr/usr/stoe_exp/E142Brandau/SCA... (auto complete with tab)
mbs
@startup
connect rfio lxg0155 -disk
open file lxg0155:/data.local2/E142/229Th -auto -rfio
sta ac
To stop MBS enter the following commands
sto ac
close file
disconnect rfio
@shutdown
exit
resl |
128
|
Thu Apr 7 05:44:40 2022 |
Pierre-Michel, Ragan | DAQ | NTCAP settings | Carrier Frequency: 244M
IQ Rate: 10M
reference Level: -30
RF - Attenuation: 40
IF - Attenuation: 19.9288
Masterpath p:\E142\sc
Masterpath p:\E142\IQ
Display: No Display
NTCAP data-taking is stopped at 5:44.
IQ_2022-04-07_02-40-05
SC_2022-04-07_02-40-05 |
130
|
Thu Apr 7 07:40:09 2022 |
Danyal, Max, Sebastian | DAQ | No beam and DAQs crashed | since shortly after 7 AM we have no beam in the ESR
(reason unclear)
Both DAQs also crashed.
Beam back in ESR at 7:20 or so
Problems with restarting DAQ1
Problems with restarting DAQ2
Files names 7801 and 7804 and 0047 and 0050 cannot be used |
133
|
Thu Apr 7 09:23:18 2022 |
Sebastian | DAQ | DAQ1 & DAQ2 - 1kHz and delayed cs removed | Questionable 1kHz and delayed common stop signals has been removed.
These two cablings were for some previous tests. |
140
|
Thu Apr 7 15:18:25 2022 |
Danyal & Sebastian | DAQ | DAQ channels | We checked again the cables for both DAQs
(on Carsten's kind request)
Channels for both DAQs are:
0 XUV-Back
1 XUV-Anode
2 XUV-Anode-delayed
3 PMT-South (new PMT, new threshold)
4 PMT-Middle
5 PMT-North
6 PMT-Cu
7 Part-det-south
8 Part-det-north
9 -
10 -
11 -
12 -
13 PD-NO
14 PD-SO
15 Q-switch |
146
|
Fri Apr 8 01:18:51 2022 |
Ken Ueberholz | DAQ | TODO: DAQ improvements | For somebody who knows the DAQ1 code: Go4 resets the histograms with each laser step. Can there be additional histograms where the data gets accumulated?
And possibly a histogram where important detectors are plotted against the laser steps? The read back wavelength of the wavemeter is not very precise. |
147
|
Fri Apr 8 01:48:57 2022 |
Patrick | DAQ | Bugged Trending plots? | The wavelengths/frequencies shown in the graph in the labview window do not match the wavelengths/frequencies in go4.
Compare the picture which shows an incomplete laser scan although the scans in the labview window are completed (The measurement was started at an 'elapsed MBS time' of 2700s and took 1700s/28min).
However, the displayed time is correct. Only the data seems to be "stretched".
The same is true for the 'XUV anode' detector. The counter in the electronic module is ahead of the displayed count rate in go4.
Additional Note: The 'Cobra set wavelength' plot shows wavelengths which seem to be measured. However, we would expect deterministic setpoints from the software, see picture. |
Attachment 1: 2022-04-08_Cobra_set_wavelength.png
|
|
153
|
Fri Apr 8 08:40:06 2022 |
Sebastian | DAQ | DAQ improvement | Concerning ID 146 a new histogram for accumulating data (no cleaning histograms) can be found under
Step2_Anl/TDC/TDC***_accumulated_*** |
162
|
Fri Apr 8 14:12:57 2022 |
morning shift | DAQ | timing for h=1 | The timing for h=1 has been set up
The time window is now twice as large as before!
This means that we see the same ion bunch twice.
(150 bins = 1 turn in the ESR)
The PMT signal is exactly in between two cycles + the extra flight time (3 bins = 10 ns) from target to PMT north. |
Attachment 1: 2022-04-08_timing_h1_final.png
|
|
163
|
Fri Apr 8 14:14:28 2022 |
Kristian | DAQ | Delay of bunch RF | The bunch HF is now fed through a delay to shift the stop trigger relative to the PMT signal. The delay generator is placed directly after the CFG and before splitting the signal for the two DAQs. The relative timing of both DAQs was not changed. |
164
|
Fri Apr 8 14:43:50 2022 |
Wilfried | DAQ | laser timing - Q-switch start | below are my notes concerning laser timing / Q-switch start |
Attachment 1: IMG_20220408_143753_resized_20220408_023840170.jpg
|
|
170
|
Fri Apr 8 17:57:45 2022 |
Konstantin | DAQ | Laser scanning |
Time | SIS-intensity | cooler-HV | LMD-DAQ1 (R4L-68) | LMD-DAQ2 (R4L-41) | scan range (nm) | step width(nm) | dwell time(s) | comments
|
17:28 | 1.1e9 | - | 0083 | 7822 | 322.3-321.3 | 0.01 | 4 | Wrong scan range
|
17:48 | 1.4e9 | 209618 | 0084 | 7823 | 322.3-321.3 | 0.01 | 4 | Wrong scan range
|
18:10 | 1.6e9 | - | 0085 | 7824 | 323.2-321.2 | 0.01 | 4 | acquisition on r4l-68 crashed
|
18:13 | 2e9 | - | 0086 | - | 323.2-321.2 | 0.01 | 4 | acquisition on r4l-41 crashed
|
18:29 | 1.9e9 | 209618 | 0087 | 7826 | 323.2-321.2 | 0.01 | 4 | An artifact is observed at about 644nm <-> 322nm fundamental wavelength
|
20:17 | 2e9 | 209609 | 0089 | 7827 | 323.2-321.2 | 0.01 | 4 | Cu-mirror and XUV detector are not driven at the moment. It is unclear for how long this was the case. Optimization of the accelerator settings were done before.
|
21:12 | 1.6e9 | - | 0089 | 7828 | 323.2-321.2 | 0.01 | 4 | Laser got wrong pulse widths during this scan and also during the last one.
|
At about 20:00 the slits were adjusted to the h=1 settings:
NI: 5mm
NA: -3mm
SA: -10mm (also the voltage for the Scitnilator in this pocket was increased to 1500V)
SA_Scraper: +14mm |
Attachment 1: Artifacts_in_PMT_MiddleAndNorth.png
|
|
171
|
Fri Apr 8 22:26:44 2022 |
Patrick | DAQ | Spike in all detectors | In the previous shift, there was a spike in all detectors in the same scan step. Apparently, this was NOT a resonance since in the next step it appeared again but at a different wavelength.
The current hypothesis is, that this is a disruption signal from one of the machines. |
172
|
Fri Apr 8 23:56:07 2022 |
Patrick | DAQ | DAQ improvement | As requested in ID:146 and ID:147, the laserscan tab was improved:
- The laserscan tab shows each observable plotted against the predefined wavelength setpoints now.
- The Kobra set wavelength shows the actual setpoints now and not measured wavelengths.
Note: The bins of the laserscan histograms are defined in TLdaAnlProc.cxx, lines 140-142.
At the moment, the histograms are set up for scans in the range 320 - 325 nm and step sizes of 0.01 nm.
If the step size changes or scans that exceed this range are required, these parameters should be adjusted.
Remember to add or subtract half of the step size to your min. and max. wavelength to prevent binning artifacts.
Then of course, also only scan wavelengths which are multiples of your step size. |
174
|
Sat Apr 9 03:27:47 2022 |
Patrick | DAQ | Laser scanning | DAQ1: lxg1927:/data.local2/BeamTimeTh22/
DAQ2: lxg0155:/data.local2/E142/
LMD file name DAQ1:229Thor
LMD file name DAQ2:229Th
Shottky marker pos: 243.973MHz
Time | SIS-intensity | cooler-HV | LMD-DAQ1 | LMD-DAQ2 | scan range(nm) | step width(nm) | dwell time(s) | comments
|
xx:xx | x.xe9 | 209xxx | 00xx | 78xx | 32x.x - 32x.x | 0.01 | x | sketch for filling the table
|
04:13 | 1.4e9 | 209614 | 0093 | 7831 | 323.2 - 321.2 | 0.01 | 4 | First laser scan this night shift
|
04:46 | 1.3e9 | 209616 | 0094 | 7832 | 323.2 - 321.2 | 0.01 | 4 |
|
05:17 | 1.0e9 | 209617 | 0095 | 7833 | 323.2 - 321.2 | 0.01 | 4 | The laser left the screen between the two loops
|
05:54 | 1.5e9 | 209619 | 0097 | 7835 | 323.2 - 321.2 | 0.01 | 4 | go4 on DAQ2 does not show any events. mbs does not write to file although it is OPEN and the acq is RUNNING
|
|
Attachment 1: does_not_write_data_to_file.png
|
|
178
|
Sat Apr 9 04:40:01 2022 |
Patrick | DAQ | Bugged Trending plots? | The problem from yesterday (ID:147) still persists. All the plots (not only the labview stuff) comes in too late in go4. However, the time axis is correct, see picture. |
Attachment 1: 2022-04-09_Cobra_set_wavelength2.png
|
|
184
|
Sat Apr 9 14:15:44 2022 |
Kristian, Max, Konstantin | DAQ | Change in LV code | We changed the LV code so that the Cobra Set Wavelength is permanently sent. Before it was only sent once at the beginning of each laser step. This, however, lead to too much data for the LV->MBS server.
This was fixed by inserting a 250 ms wait in LV (in Krypton data VI). Basically, all LV values are now updated every 250 ms, which works fine with MBS |
190
|
Sun Apr 10 02:20:17 2022 |
Patrick | DAQ | New mbs startup guide | Connecting to the rfio server and opening a file is included in '@startup' now. Since mbs crashes reliably every 3 or 4 runs, it may be preferable to use the following procedure (which did not crash yet):
| DAQ1 | DAQ2
|
1 | ssh atplaser@r4l-41 | ssh stoe_exp@r4l-68
|
2 | ThE142_2022 | see ID:179
|
3 | cd mbsrun/th22 | cd mbsrun/th22cd /esr/usr/stoe_exp/E142Brandau/SCA... (auto complete with tab)
|
// loop start | |
|
4 | resl | resl
|
5 | mbs | mbs
|
6 | @startup | @startup
|
7 | // connect go4 | // connect go4
|
8 | sta ac | sta ac
|
9 | // measure | // measure
|
10 | sto ac | sto ac
|
11 | clo fi | clo fi
|
12 | exit | exit
|
13 | // disconnect go4 | // disconnect go4
|
14 | // go to step 4 | // go to step 4
|
Note: At least in DAQ1, step 13 is necessary to be able to reconnect mbs to the rfio server. |
192
|
Sun Apr 10 04:07:53 2022 |
Patrick | DAQ | go4 shows wrong frequencies and wavelengths | Update (ID:194): In labview "Stop All", close labview, stop python script (ID:197), close wavemeter. Then restart wavemeter, python script, labview an mbs.
Both labview and the wavemeter software are displaying the scanned wavelength correctly (Fig. 1 & 2), but go4 shows something which looks just like a freely drifting wavelength (Fig. 3).
The Cobra set voltages are displayed correctly. |
Attachment 1: 2022-04-10_measured_wavel.png
|
|
Attachment 2: 2022-04-10_measured_wavel2.png
|
|
Attachment 3: 2022-04-10_measured_wavel_go4.png
|
|
193
|
Sun Apr 10 04:37:29 2022 |
Patrick | DAQ | Next wavelength range | Measurements with the next wavelength scan range should be started roughly around 12:00 noon. The plan is to go to lower wavelengths / higher energies.
So the next wavelength scan range would be 322.81 - 322.4 nm, again with a step size of 0.002 nm and 5s dwell time.
In the picture below you find some calculations/estimates for the current scan range. |
Attachment 1: 2022-04-10_calculations_323nm.jpg
|
|
194
|
Sun Apr 10 06:34:49 2022 |
Kristian, Max | DAQ | Wavemeter Readout | Problem solved. Ignore this entry
If the wavemeter reading is not shown correctly in Go4 - Step2 - Labview:
Close Labview, close WM software (all windows)
Start WM software, start Labview, restart MBS |
198
|
Sun Apr 10 13:17:53 2022 |
Kristian, Max | DAQ | Wavemeter readout | We changed the Labview code in order to reduce the amount of data that was overfilling the WM data queue. We removed the temperature and intensity values and added an additional 250ms wait.
We have the same wait in the Krypton VI and believed that it also slowed down the WM reading but this was obviously not the case.
Everything seems to work fine now!
Starting with the .lmd files 0151 / 7887 also the WM reading values are correct |
199
|
Sun Apr 10 15:08:42 2022 |
Carsten | DAQ | Backup of Data from 1rst Scanrange to extrenal RAID1 HDDs | I just performed a backup of all data (+log-Files) that were collected until now to the two RAID HDDs.
For DAQ1: /media/sdc2 - last file 229Thor7889.lmd. Please note, that the naming sceme on DAQ1 is inconsistent - please look for the filenumnbering
For DAQ2: /media/sdd2 - last file 229Th0153.lmd |
204
|
Mon Apr 11 04:26:53 2022 |
Patrick | DAQ | Next wavelength range | Measurements with the next wavelength scan range should be started roughly around 10:00 am.
The next wavelength scan range is planned to be 322.41 - 322.00 nm, again with a step size of 0.002 nm, 5s dwell time and 2 loops.
This range includes roughly a third of the first scan range. |
19
|
Thu Mar 17 17:56:33 2022 |
Kristian | Calibration | HV dividers | PTB HV dividers arrived. Divider ratios are:
PT120: 12003,341
PT200.1: 19859,033
Ohmlabs: 248517 |
Attachment 1: Bericht_PTB_verbesserter_Teiler_2018.pdf
|
|
46
|
Thu Mar 31 22:41:35 2022 |
Kristian | Calibration | HV divider | We noticed a difference in the electron cooler high voltage:
The set voltage is ~205 kV, the Ohmlabs divider measures 207 kV and the PTB200 shows a value of ~212 kV. The latter is doing some crazy jumps of up to 10 kV, see screenshot. The Ohmlabs divider is stable
Maybe some small discharges? |
Attachment 1: HV-divider2.png
|
|
56
|
Fri Apr 1 18:19:58 2022 |
Kristian | Calibration | HV divider | We checked the strange behavior of the HV dividers again. The Ohmlabs and the PTB divider are in good agreement at 120 kV and 150 kV. There, both dividers deviated by 0.35% from the value on the HKR multimeter. Ohmlabs divider yields higher voltage.
At higher voltages (180 kV, 195 kV and 205 kV) the PTB divider showed jumps. The deviation between Ohmlabs divider and set value increased at higher voltages up to 2 %. Ohmlabs divider was fluctuating at 10 V scale but center was stable.
We removed the PTB divider.
Afterwards, the fluctuation of the Ohmlabs divider are at the 1 V level. Deviation between Ohmlabs divider and set value is now 0.35 % at 205 kV. Same as in the low voltage range with the well-working PTB divider. |
83
|
Sun Apr 3 18:52:30 2022 |
Konstantin | Calibration | Laser ion beam overlap | We measured vertical and horizontal ion beam positions. Unfortunately, the horizontal scraper positions can not be manipulated
by the "Device Control" software. Robert Boywitt has supported us a lot to get the drives moving by using the expert software on
a local control PC, which can only be remotely accessed from beapc032 with the usual experiment account "atplaser". In the first
try we were only able to determine the vertical positions of a beam which was not the 229Th (positions were measured already on
Sunday, 03.04.)
Scraper | ion beam position (outer->inner) |
GECEDS2VU | -1.3(2) mm |
GECEDS1VU | -0.7(2) mm |
|
Finally, we got 229Th (Wednesday, 06.04.) and were able to measure the ion beam positions. Those are
summarized in the following table. The first values are those were the scraping begins, hence representing the
edge of the ion beam. The second values represent the central positions of the ion beam.
Scraper | ion beam position (outer->inner) | ion beam position (inner->outer)
|
GECEDS2VU | -1.6(2) mm / -1.3(2) mm | |
GECEDS2HA | -13.8(2) mm / -13.4(2) mm | -4.0(2) mm / -4.6(2) mm |
GECEDS1VU | -1(4) mm / -0.9(2) mm | |
GECEDS1HA | -18.1(2) mm / -17.6(2) mm | -7.7(2) mm / -8.2(2) mm |
|
Schreenshots taken at scraper positions are given in Entry 142 |
142
|
Thu Apr 7 16:50:22 2022 |
Konstantin | Calibration | Spacial laser-ion overlap | Laser-ion-beam overlap was achieved after measuring the ion beam positions (compare Entry 83).
Screenshots are comprised in the following table.
|
143
|
Thu Apr 7 19:13:26 2022 |
Konstantin, Patrick | Calibration | How to find the correct laser position | In order to achieve the correct laser ion beam superposition one needs to do the following steps:
- If the laser stabilization is still running, turn both stages off and block the main amplifier.
- Ensure that the laser spot is centered on the paper screen, which is located in top of the laser tower in the south (ATTENTION: please only use the preamplifier and not the main amplifier!!! If you're unsure what you are doing please contact Rodolfo or Konstantin).
- If this is not the case and the beam is completely off, have a look at the MRC Stabilization system. If it is running, close the software and turn the hardware off and on again. The spot will leave its position and come back after the stabilization is turned on again.
- If it is still not centered, use and only use the piezo mirror (the one with red screws) to bring back the spot.
- Remove the paper screen and then turn on the main amplifier.
- Restart the software and put in the values from the file 07-04-2022(...).png. Start the two stabilization stages in the software. The laser spot should move back to the correct position.
|
169
|
Fri Apr 8 17:44:25 2022 |
Konstantin | Calibration | Final Timing | We measured the timing for the laser bunch synchronization. A summary is given below.
detector | time till common stop [bins] | time till common stop [ns]
|
PD North | 28 | 93.33 |
PD South | 63 | 210 |
Particle Detector South | 14 | 46.67 |
Particle Detector North | 94 | 313.33 |
PMT middle | 119 | 396.67
|
Using all numbers, the difference between the center of the photodiodes and PMT middle is
given by 245ns, which corresponds to the half revolution period of 256 ns. Difference between the
center of both photodiodes and particle detector south is given by 105 ns.
The delay for the laser trigger is now set correctly. |
10
|
Fri Nov 19 15:50:44 2021 |
Rodolfo | Accelerator | Laser windows at E-Cooler side | New laser viewports have been installed at the E-Cooler side of the ESR.
|
18
|
Thu Mar 17 17:37:49 2022 |
Rodolfo | Accelerator | High voltage dividers for E-Cooler | Two dividers, from PTB-Braunschweig, have been deliver today. We will use them to monitor the electron-cooler voltage in situ.
- PT120 (up to -120 kV) with scaling factor: 12003.341, and
- PT200.1 (up to -200 kV) with a scaling factor: 19859,033.
Tomorrow (Friday 18.3.) we will install them in the Faraday cage at ESR.
PT120 will be use for the "Channeling experiment" (E137 Bräuning-Demian) and the PT200.1 for the "Thorium experiment" (E142 Brandau). |
Attachment 1: PTB_Spannungsteiler_Mar2022.jpg
|
|
20
|
Fri Mar 18 09:18:38 2022 |
Rodolfo | Accelerator | Vacuum leak, ODR | After the beaking out process we got a vacuum leak in one of the MgF2 windows (Referenz: PMT South) of the optical detection region (ODR) Stand 17.03.2022. In order to avoid breaking the vacuum again and a second beaking out process we had to spread vacuum seal on the window.
The window shows now no leaks, Stand 18.03.2022. We are allowed to install a detector on this viewport, as soon as the detector does not have contact with the window (we got the consent of our vacuum expert). Bild: K. König. |
Attachment 1: MgF2-Window_VACSeal.jpg
|
|
22
|
Fri Mar 18 16:58:26 2022 |
Rodolfo | Accelerator | Pressure at North-East Arc | The pressure at the north-east arc of ESR, where the laser window is located, looks suspicious. The sensor E01LF02 shows a value of 7.26E-8 mbar. For comparison I have also upload a photo taken on 07.02.2022 where the pressure was 4.62E-10. We have contacted the vacuum expert and asked for his opinion. Waiting for the reply ...
Bilder: R. Sánchez |
Attachment 1: Druck_E01LF02_18-03-2022.jpg
|
|
Attachment 2: Druck_E01LF02_07-02-2022.jpg
|
|
23
|
Mon Mar 21 09:18:28 2022 |
Rodolfo | Accelerator | Pressure at North-East Arc | Our vacuum expert has reply. The "IZ Pump" in this region was off.
Quote: | The pressure at the north-east arc of ESR, where the laser window is located, looks suspicious. The sensor E01LF02 shows a value of 7.26E-8 mbar. For comparison I have also upload a photo taken on 07.02.2022 where the pressure was 4.62E-10. We have contacted the vacuum expert and asked for his opinion. Waiting for the reply ...
Bilder: R. Sánchez |
|
39
|
Wed Mar 30 09:27:15 2022 |
Rodolfo | Accelerator | Issue? Scrapers at E-Cooler | Carsten* forwarded me an E-Mail from Markus yesterday. "Betreff: Scraper im ESR Elektronenkühler"
- Markus has tried to get moving the scrapers at E-Cooler last week. But he got some issues.
- The expert (Herr Robert Boywitt, Abteilung BEA) has been contacted and he is working on this issue.
- The scrapers move in one follows the instructions (please attached screenshot).
- However it was also noticed that the actuators for the scrapers show now tolerance of "2 mm". This can affect the accuracy and the reproducibility of the ion- and laser-beam positions, e.g the overlap.
* he was so lazy that he could not post this in the ELog. |
Attachment 1: Schrittmotorsteuerung_ECooler.JPG
|
|
65
|
Sat Apr 2 15:54:32 2022 |
Carsten | Accelerator | ESR setup with primary beam and 1cm Be plate + Schottky data on NTCAP | MArkus and Bernd have setup the ESR with the thick stripper foil and put the ion beam (238U92+) on the central orbit.
SIS Energy is 536 MeV/u
ESR cooler is 207.1keV (according to the multimeter in the HKR)
Bunching frequency is 3.89329 MHz
Scrapers in event mode are working.
We are now taking a Schotty spectrum with the NTCAP DAQ
(IQ_2022-04-02-15-52-58 )-The lines are not yet positioned on the Schottky resonance.
center 243.4MHz, 10MIQs, -25dBm |
66
|
Sat Apr 2 16:10:22 2022 |
Markus, Bernd | Accelerator | SIS setting complete, U90+ mit Be target: 2022-04-02_16-04-00_SIS18_FAST_E142_20220325_110213.C1.txt | # Version: 1.2
# Comment: ParamModi Export at 2022-04-02T16:04:10.778077+02:00[Europe/Berlin]
# Context: SIS18_FAST_E142_20220325_110213.C1
# Columns: PARAMETERNAME,VALUE,UNIT,BEAMPROCESSPURPOSE
LOGICAL.GTK7MU5/HKICK,0.0,rad,TRANSFER_INJECTION
LOGICAL.GTK7MU5/HKICK_THEO,0.0018,rad,TRANSFER_INJECTION
LOGICAL.GTK7BC1L/HKICK,0.0,rad,TRANSFER_INJECTION
LOGICAL.GTK7BC1L/HKICK_THEO,-0.0035,rad,TRANSFER_INJECTION
LOGICAL.GTK7BC1L/THIGH_S,7.0E-5,s,TRANSFER_INJECTION
GTK3MV4_TO_PLTKMH2_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
GTK3MV4_TO_PLTKMH2_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_INJECTION
GTK3MV4_TO_PLTKMH2_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET
LOGICAL.GTK9MB1V/BUMPER_VKICK_S,0.0,rad,TRANSFER_INJECTION
LOGICAL.GS12ME1I/ESEP_HKICK_S,0.0,rad,TRANSFER_INJECTION
LOGICAL.GS12ME1I/ESEP_K0L_THEO_S,-0.049,rad,TRANSFER_INJECTION
LOGICAL.GS12MU3I/HKICK,0.0,rad,TRANSFER_INJECTION
LOGICAL.GS12MU3I/K0L_THEO,-0.1535,rad,TRANSFER_INJECTION
PLTKMH2_TO_SIS18_BEAM/MAX_PART_RATE_S,1.0E12,Hz,TRANSFER_INJECTION
PLTKMH2_TO_SIS18_BUMPER/BUMPER_CURVATURE_S,[0, 0],s,TRANSFER_INJECTION
PLTKMH2_TO_SIS18_BUMPER/TFALL_S,1.7E-4,s,TRANSFER_INJECTION
PLTKMH2_TO_SIS18_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
PLTKMH2_TO_SIS18_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_INJECTION
PLTKMH2_TO_SIS18_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET
LOGICAL.GS00BS1W/ACTIVE_S,false,,RING_EXTRACTION_FAST
LOGICAL.GS00BS1W/QRIPPLE_AMPL_START_S,0.0,V,RING_EXTRACTION_FAST
LOGICAL.GS00BS1W/QRIPPLE_FREQ_START_S,0.0,Hz,RING_EXTRACTION_FAST
LOGICAL.GS01MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS01MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS06MU4/BYP_HKICK_DELTA_S,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS06MU4/BYP_HKICK_START_S,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS01QS1F/B1L_CHIMNEY_S,6.876008,T,BEAMOUT_RESET
LOGICAL.GS01KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS01KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS01QS2D/B1L_CHIMNEY_S,-6.474563,T,BEAMOUT_RESET
LOGICAL.GS02MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS02MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS02KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS02KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS03MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS03MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS03KH1I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION
LOGICAL.GS03KH1I/SCALE_B0L_IPM_S,---,,RING_RAMP
LOGICAL.GS03KV1I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION
LOGICAL.GS03KV1I/SCALE_B0L_IPM_S,---,,RING_RAMP
LOGICAL.GS03KH2I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION
LOGICAL.GS03KH2I/SCALE_B0L_IPM_S,---,,RING_RAMP
LOGICAL.GS03KV2I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION
LOGICAL.GS03KV2I/SCALE_B0L_IPM_S,---,,RING_RAMP
LOGICAL.GS03KH3I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION
LOGICAL.GS03KH3I/SCALE_B0L_IPM_S,---,,RING_RAMP
LOGICAL.GS03KV3I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION
LOGICAL.GS03KV3I/SCALE_B0L_IPM_S,---,,RING_RAMP
LOGICAL.GS03KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS03KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS04MU2A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS04MU2A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS04ME1E/ACTIVE_S,false,,RING_EXTRACTION_FAST
LOGICAL.GS04KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS04KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS05MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS05MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS05MQ1/K0L_S,0.0,rad,RING_INJECTION
LOGICAL.GS05MQ1/K0L_S,---,rad,RING_RAMP
LOGICAL.GS05MQ1/K0L_S,0.0,rad,RING_PRE_EXTRACTION
LOGICAL.GS05MQ1/K0L_S,---,rad,RING_EXTRACTION_FAST
LOGICAL.GS05MQ1/QKICKER_ACTIVE_B,---,,RING_INJECTION
LOGICAL.GS05MQ1/QKICKER_ACTIVE_B,---,,RING_PRE_EXTRACTION
LOGICAL.GS05KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS05KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS06MU2A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS06MU2A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS06KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS06KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS07MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS07MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS07KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS07KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS08MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS08MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS08KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS08KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS09MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS09MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS09KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS09KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS10MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS10MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS10KX1/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS10KX1/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS10KX2/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS10KX2/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS10KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS10KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS11MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS11MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS11MU2/ACTIVE_S,false,,RING_INJECTION
LOGICAL.GS11MU2/B0L_CHIMNEY_S,4.82717365,Tm,BEAMOUT_RESET
LOGICAL.GS11MU2/MEC_RELDAMPL_S,0.0,,RING_INJECTION
LOGICAL.GS11MU2/MEC_RELDTIME_S,0.0,,RING_INJECTION
LOGICAL.GS11KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS11KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS12MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS12MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS12QS1F/B1L_CHIMNEY_S,6.876008,T,BEAMOUT_RESET
LOGICAL.GS12KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS12KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS12QS2D/B1L_CHIMNEY_S,-6.474563,T,BEAMOUT_RESET
LOGICAL.GS12QS3T/B1L_CHIMNEY_S,0.580287,T,BEAMOUT_RESET
SIS18B2B/B2B_KICK_START_OFFSET_S,-2.5E-5,s,RING_EXTRACTION_FAST
SIS18B2B/B2B_MODE_RAW_S,B2EXTRACTION,,RING_EXTRACTION_FAST
SIS18B2B/B2B_PHASE_DIFFERENCE_S,0.0,deg,RING_EXTRACTION_FAST
SIS18B2B/B2B_PREDEFINED_BY_COUPLING_B,true,,RING_EXTRACTION_FAST
SIS18B2B/B2B_TRIGGER_OFFSET_S,8.6,deg,RING_EXTRACTION_FAST
SIS18BEAM/BEAM_MODE_S,1,,RING_INJECTION
SIS18BEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_INJECTION
SIS18BEAM/BUCKETFILL_RAW_S,[[0.0, 1.4]],,RING_BUNCHING
SIS18BEAM/BUCKETFILL_RAW_S,[[1.4, 2.0]],,RING_RAMP
SIS18BEAM/BUCKETFILL_RAW_S,[[2.0, 3.0]],,RING_RF_MANIPULATION
SIS18BEAM/BUCKETFILL_RAW_S,[[3.0, 10.0]],,RING_PRE_EXTRACTION
SIS18BEAM/BUCKETFILL_RAW_S,[[10.0, 10.0]],,RING_EXTRACTION_FAST
SIS18BEAM/BUCKETFILL_RAW_S,[[10.0, 10.0]],,RING_POST_EXTRACTION
SIS18BEAM/CHIMNEY_B,true,,BEAMOUT_RESET
SIS18BEAM/CH_END_S,-4.09258183,,RING_INJECTION
SIS18BEAM/CH_END_S,-6.45521578,,RING_RAMP
SIS18BEAM/CH_END_S,---,,RING_PRE_EXTRACTION
SIS18BEAM/CV_END_S,-5.63105355,,RING_INJECTION
SIS18BEAM/CV_END_S,-4.10566257,,RING_RAMP
SIS18BEAM/CV_END_S,---,,RING_PRE_EXTRACTION
SIS18BEAM/DELTAR,-0.001,m,RING_INJECTION
SIS18BEAM/DELTAR,0.0,m,RING_EXTRACTION_FAST
SIS18BEAM/DPFREV,0.0,,RING_INJECTION
SIS18BEAM/DPFREV,0.0,,RING_EXTRACTION_FAST
SIS18BEAM/DP_OVER_P_S,8.0E-4,,RING_INJECTION
SIS18BEAM/ELEMENT_S,92,,RING_INJECTION
SIS18BEAM/E_S,1.1205E7,eV/u,RING_INJECTION
SIS18BEAM/E_S,5.36E8,eV/u,RING_RAMP
SIS18BEAM/FINAL_HARMONIC_S,1,,RING_RF_MANIPULATION
SIS18BEAM/H_S,4,,RING_INJECTION
SIS18BEAM/INJ_EMIH_S,1.5E-4,m*rad,RING_INJECTION
SIS18BEAM/INJ_EMIV_S,5.0E-5,m*rad,RING_INJECTION
SIS18BEAM/ISOTOPE_S,238,,RING_INJECTION
SIS18BEAM/KL_AMPL_S,0.0,,RING_INJECTION
SIS18BEAM/KL_AMPL_S,0.0,,RING_BUNCHING
SIS18BEAM/KL_AMPL_S,0.0,,RING_RAMP
SIS18BEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION
SIS18BEAM/KL_AMPL_S,0.0,,RING_PRE_EXTRACTION
SIS18BEAM/KL_AMPL_S,0.0,,RING_EXTRACTION_FAST
SIS18BEAM/KL_AMPL_S,0.0,,RING_POST_EXTRACTION
SIS18BEAM/KL_HARM_S,1,,RING_INJECTION
SIS18BEAM/KL_HARM_S,1,,RING_BUNCHING
SIS18BEAM/KL_HARM_S,1,,RING_RAMP
SIS18BEAM/KL_HARM_S,1,,RING_RF_MANIPULATION
SIS18BEAM/KL_HARM_S,1,,RING_PRE_EXTRACTION
SIS18BEAM/KL_HARM_S,1,,RING_EXTRACTION_FAST
SIS18BEAM/KL_HARM_S,1,,RING_POST_EXTRACTION
SIS18BEAM/KL_OFFSET_S,0.0,,RING_INJECTION
SIS18BEAM/KL_OFFSET_S,0.0,,RING_BUNCHING
SIS18BEAM/KL_OFFSET_S,0.0,,RING_RAMP
SIS18BEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION
SIS18BEAM/KL_OFFSET_S,0.0,,RING_PRE_EXTRACTION
SIS18BEAM/KL_OFFSET_S,0.0,,RING_EXTRACTION_FAST
SIS18BEAM/KL_OFFSET_S,0.0,,RING_POST_EXTRACTION
SIS18BEAM/KL_PHASE_S,0.0,deg,RING_INJECTION
SIS18BEAM/KL_PHASE_S,0.0,deg,RING_BUNCHING
SIS18BEAM/KL_PHASE_S,0.0,deg,RING_RAMP
SIS18BEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION
SIS18BEAM/KL_PHASE_S,0.0,deg,RING_PRE_EXTRACTION
SIS18BEAM/KL_PHASE_S,0.0,deg,RING_EXTRACTION_FAST
SIS18BEAM/KL_PHASE_S,0.0,deg,RING_POST_EXTRACTION
SIS18BEAM/NPARTICLES_S,1.0E8,,RING_INJECTION
SIS18BEAM/QH_END_S,4.27,,RING_INJECTION
SIS18BEAM/QH_END_S,4.27,,RING_RAMP
SIS18BEAM/QH_END_S,4.3,,RING_PRE_EXTRACTION
SIS18BEAM/QV_END_S,3.24,,RING_INJECTION
SIS18BEAM/QV_END_S,3.24,,RING_RAMP
SIS18BEAM/QV_END_S,3.14,,RING_PRE_EXTRACTION
SIS18BEAM/Q_S,73,,RING_INJECTION
SIS18BTM/BTM_DELAYS_INPUT_S,[],s,RING_INJECTION
SIS18BTM/BTM_DELAYS_INPUT_S,[],s,RING_EXTRACTION_FAST
SIS18BTM/BTM_DEVICES_INPUT_S,[],,RING_INJECTION
SIS18BTM/BTM_DEVICES_INPUT_S,[],,RING_EXTRACTION_FAST
SIS18BTM/BTM_EVENTS_INPUT_S,[],,RING_INJECTION
SIS18BTM/BTM_EVENTS_INPUT_S,[],,RING_EXTRACTION_FAST
SIS18BTM/BTM_EXTRACTION_POINTS_INPUT_S,[],,RING_INJECTION
SIS18BTM/BTM_EXTRACTION_POINTS_INPUT_S,[],,RING_EXTRACTION_FAST
SIS18BUMPER/BUMPER_CURVATURE_S,[0, 0],s,RING_INJECTION
SIS18BUMPER/BUMPER_KNOB_S,70.0,mm,RING_INJECTION
SIS18BUMPER/BUMPER_RELDSLOPE_S,0.0,,RING_INJECTION
SIS18BUMPER/TFALL_S,1.8E-4,s,RING_INJECTION
SIS18EKICKER/KICKER_KNOB_S,6.5,mrad,RING_EXTRACTION_FAST
SIS18EKICKER/KICKER_MODE_S,1,,RING_EXTRACTION_FAST
SIS18EKICKER/KICKER_START_S,76.5,deg,RING_EXTRACTION_FAST
SIS18EKICKER/KICKER_TOFFSET1_S,2.0E-6,s,RING_EXTRACTION_FAST
SIS18EKICKER/NBUNCH1_INPUT_S,4,,RING_EXTRACTION_FAST
SIS18EKICKER/TGX_TIMING_TRIGGERED_B,---,,RING_EXTRACTION_FAST
SIS18IPM/IPM_ACTIVE_B,false,,RING_INJECTION
SIS18IPM/IPM_PLANE_S,HORIZONTAL,,RING_INJECTION
SIS18OPTICS/OPTIC_NAME_S,SIS18_STANDARD_OPTICS_TABLE,,RING_INJECTION
SIS18OPTICS/SIGMA_S,0.0,,RING_INJECTION
SIS18OPTICS/SIGMA_S,0.0,,RING_RAMP
SIS18OPTICS/SIGMA_S,0.0,,RING_PRE_EXTRACTION
SIS18OPTICS/TAU_ENDPOINT_S,0.0,,RING_RAMP
SIS18OPTICS/TAU_ENDPOINT_S,0.0,,RING_PRE_EXTRACTION
SIS18OPTICS/TAU_END_S,0.0,,RING_INJECTION
SIS18OPTICS/TAU_END_S,1.0,,RING_RAMP
SIS18OPTICS/TAU_END_S,1.0,,RING_PRE_EXTRACTION
SIS18OPTICS/TAU_NLP_S,0.0,,RING_RAMP
SIS18OPTICS/TAU_NLP_S,0.0,,RING_PRE_EXTRACTION
SIS18ORBIT/AMPL_ECB_CORR,0.0,,RING_INJECTION
SIS18ORBIT/COH01,0.009000000000000001,m,RING_INJECTION
SIS18ORBIT/COH01,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH02,-0.004,m,RING_INJECTION
SIS18ORBIT/COH02,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH03,-0.006,m,RING_INJECTION
SIS18ORBIT/COH03,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH04,0.008,m,RING_INJECTION
SIS18ORBIT/COH04,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH05,-0.004,m,RING_INJECTION
SIS18ORBIT/COH05,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH06,-0.003,m,RING_INJECTION
SIS18ORBIT/COH06,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH07,0.005,m,RING_INJECTION
SIS18ORBIT/COH07,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH08,-0.003,m,RING_INJECTION
SIS18ORBIT/COH08,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH09,0.004,m,RING_INJECTION
SIS18ORBIT/COH09,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH10,0.008,m,RING_INJECTION
SIS18ORBIT/COH10,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH11,-0.004,m,RING_INJECTION
SIS18ORBIT/COH11,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH12,-0.01,m,RING_INJECTION
SIS18ORBIT/COH12,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV01,0.005,m,RING_INJECTION
SIS18ORBIT/COV01,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV02,0.004,m,RING_INJECTION
SIS18ORBIT/COV02,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV03,-0.004,m,RING_INJECTION
SIS18ORBIT/COV03,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV04,-0.002,m,RING_INJECTION
SIS18ORBIT/COV04,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV05,0.005,m,RING_INJECTION
SIS18ORBIT/COV05,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV06,-0.004,m,RING_INJECTION
SIS18ORBIT/COV06,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV07,0.0,m,RING_INJECTION
SIS18ORBIT/COV07,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV08,0.0,m,RING_INJECTION
SIS18ORBIT/COV08,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV09,0.0,m,RING_INJECTION
SIS18ORBIT/COV09,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV10,0.002,m,RING_INJECTION
SIS18ORBIT/COV10,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV11,-0.004,m,RING_INJECTION
SIS18ORBIT/COV11,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV12,-0.004,m,RING_INJECTION
SIS18ORBIT/COV12,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/EXTESEP_START_S,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/EXTMSEP_START_S,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/EXT_ESMS_START_S,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/XANG_ECB,0.0,rad,RING_INJECTION
SIS18ORBIT/XPOS_ECB,-0.001,m,RING_INJECTION
SIS18ORBIT/YANG_ECB,0.0,rad,RING_INJECTION
SIS18ORBIT/YPOS_ECB,0.0,m,RING_INJECTION
SIS18QKICKER/QKICKER_EVENT_POSITION_S,0.5,,RING_INJECTION
SIS18QKICKER/QKICKER_EVENT_POSITION_S,0.5,,RING_PRE_EXTRACTION
SIS18RF/BUNCH_ROTATE_ACTIVE_B,false,,RING_EXTRACTION_FAST
SIS18RF/BUNCH_ROTATE_OFFSET_S,9.999999999999999E-5,s,RING_EXTRACTION_FAST
SIS18RF/CAVITYPATTERN_S,[true, false, false, true, true],,RING_INJECTION
SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_INJECTION
SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_BUNCHING
SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_RAMP
SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_RF_MANIPULATION
SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_PRE_EXTRACTION
SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_EXTRACTION_FAST
SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_POST_EXTRACTION
SIS18RF/CAVITY_TRANSFER_B,false,,RING_INJECTION
SIS18RF/DUALH_ACTIVE_S,false,,RING_INJECTION
SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_INJECTION
SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_BUNCHING
SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RAMP
SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RF_MANIPULATION
SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_PRE_EXTRACTION
SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_EXTRACTION_FAST
SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_POST_EXTRACTION
SIS18RF/PHASE_CHANGE_B,false,,RING_INJECTION
SIS18RF/PHASE_OFFSET_S,40.0,deg,RING_INJECTION
SIS18RF/RF_MANIPULATION_RAW_S,[],,RING_RAMP
SIS18RF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION
SIS18RF/RF_MANIPULATION_TIMES_S,---,s,RING_RAMP
SIS18RF/RF_MANIPULATION_TIMES_S,[0.065, 0.085],s,RING_RF_MANIPULATION
SIS18RF/SEQUENTIAL_RF_B,false,,RING_INJECTION
SIS18RF/SIS18_STANDARD_RF_MANI_ENUM_S,REBUNCHING,,RING_RF_MANIPULATION
SIS18RF/USE_CAVITY_MODE_MAP_B,true,,RING_INJECTION
SIS18SYSTEM/GENERATE_MASP_MASKED_DEVICES_B,true,,RING_INJECTION
SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INJECTION
SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_BUNCHING
SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RAMP
SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION
SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_PRE_EXTRACTION
SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_EXTRACTION_FAST
SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_POST_EXTRACTION
SIS18TIMEPARAM/BDOT_S,[2.0, 2.0],T/s,BEAMOUT_INIT
SIS18TIMEPARAM/BDOT_S,[3.0, 3.0],T/s,RING_RAMP
SIS18TIMEPARAM/BDOT_S,[4.0, 4.0],T/s,BEAMOUT_RESET
SIS18TIMEPARAM/BP_INDEX_B,[false, false, false],,RING_INJECTION
SIS18TIMEPARAM/BP_INDEX_S,[-1, -1, -1],,RING_INJECTION
SIS18TIMEPARAM/CHOPPER_OFFSET_S,6.0E-5,s,RING_INJECTION
SIS18TIMEPARAM/EVENT_B,[false, false, false],,RING_INJECTION
SIS18TIMEPARAM/EVENT_ID_S,[0, 0, 0],,RING_INJECTION
SIS18TIMEPARAM/MINPDIST_S,0.0,,BEAMOUT_INIT
SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_INJECTION
SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_BUNCHING
SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_RAMP
SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION
SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_PRE_EXTRACTION
SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_EXTRACTION_FAST
SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_POST_EXTRACTION
SIS18TIMEPARAM/MINPDIST_S,0.0,,BEAMOUT_RESET
SIS18TIMEPARAM/NINJECTIONS_S,1,,RING_INJECTION
SIS18TIMEPARAM/OFFSET_S,[0.0, 0.0, 0.0],s,RING_INJECTION
SIS18TIMEPARAM/TGRID_S,0.002,s,BEAMOUT_INIT
SIS18TIMEPARAM/TGRID_S,0.002,s,RING_INJECTION
SIS18TIMEPARAM/TGRID_S,0.002,s,RING_BUNCHING
SIS18TIMEPARAM/TGRID_S,0.002,s,RING_RAMP
SIS18TIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION
SIS18TIMEPARAM/TGRID_S,0.002,s,RING_PRE_EXTRACTION
SIS18TIMEPARAM/TGRID_S,0.002,s,RING_EXTRACTION_FAST
SIS18TIMEPARAM/TGRID_S,0.002,s,RING_POST_EXTRACTION
SIS18TIMEPARAM/TGRID_S,0.002,s,BEAMOUT_RESET
SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INJECTION
SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_BUNCHING
SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_RAMP
SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_PRE_EXTRACTION
SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_EXTRACTION_FAST
SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_POST_EXTRACTION
SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET
SIS18TIMEPARAM/TMEASURE_S,0.0,s,BEAMOUT_INIT
SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_INJECTION
SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_BUNCHING
SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_RAMP
SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION
SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_PRE_EXTRACTION
SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_EXTRACTION_FAST
SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_POST_EXTRACTION
SIS18TIMEPARAM/TMEASURE_S,0.0,s,BEAMOUT_RESET
SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,BEAMOUT_INIT
SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INJECTION
SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_BUNCHING
SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RAMP
SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION
SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_PRE_EXTRACTION
SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_EXTRACTION_FAST
SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_POST_EXTRACTION
SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,BEAMOUT_RESET
SIS18TIMEPARAM/T_BP_LENGTH_S,0.17200000000000001,s,BEAMOUT_INIT
SIS18TIMEPARAM/T_BP_LENGTH_S,0.5,s,RING_INJECTION
SIS18TIMEPARAM/T_BP_LENGTH_S,0.032,s,RING_BUNCHING
SIS18TIMEPARAM/T_BP_LENGTH_S,0.08,s,RING_RAMP
SIS18TIMEPARAM/T_BP_LENGTH_S,0.16,s,RING_RF_MANIPULATION
SIS18TIMEPARAM/T_BP_LENGTH_S,0.04,s,RING_PRE_EXTRACTION
SIS18TIMEPARAM/T_BP_LENGTH_S,0.016,s,RING_EXTRACTION_FAST
SIS18TIMEPARAM/T_BP_LENGTH_S,0.04,s,RING_POST_EXTRACTION
SIS18TIMEPARAM/T_BP_LENGTH_S,0.084,s,BEAMOUT_RESET
SIS18TIMEPARAM/T_WAIT_CHIMNEY_S,1.0,s,BEAMOUT_RESET
SIS18TIMEPARAM/T_WAIT_S,0.04,s,BEAMOUT_INIT
SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_INJECTION
SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_BUNCHING
SIS18TIMEPARAM/T_WAIT_S,0.04,s,RING_RAMP
SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_PRE_EXTRACTION
SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_EXTRACTION_FAST
SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_POST_EXTRACTION
SIS18TIMEPARAM/T_WAIT_S,0.04,s,BEAMOUT_RESET
SIS18TIMEPARAM/UNILAC_BREQ_OFFSET_S,-0.046,s,RING_INJECTION
SIS18TIMEPARAM/UNILAC_NOBEAM_INPUT_S,false,,RING_INJECTION
SIS18TIMEPARAM/UNILAC_NO_REQUEST_B,false,,RING_INJECTION
SIS18TIMEPARAM/UNILAC_TOFFSET_S,4.5E-5,s,RING_INJECTION
SIS18TIMEPARAM/UNILAC_VIRTACC_RAW_S,9,,RING_INJECTION
LOGICAL.GSCEKY2G/TOROID_I,5.6826,A,ECOOLER_COOLING
LOGICAL.GSCEKY4K/TOROID_I,5.6826,A,ECOOLER_COOLING
LOGICAL.GSCEMT4K/SOLENOID_I,360.402,A,ECOOLER_COOLING
LOGICAL.GSCEBG1E/DELUACC_S,110.0,V,ECOOLER_COOLING
LOGICAL.GSCEBG1E/UACC_START_END_S,[6413.9328, 6413.9328],V,ECOOLER_COOLING
LOGICAL.GSCEBG2T/U_GUN_START_END_S,[1667.5698, 1667.5698],V,ECOOLER_COOLING
LOGICAL.GSCEBG3T/U_AN_START_END_S,[700.0, 700.0],V,ECOOLER_COOLING
LOGICAL.GSCEBG4T/U_SUPPR_START_END_S,[530.0, 530.0],V,ECOOLER_COOLING
LOGICAL.GSCEBG5T/U_S,3000.0,V,ECOOLER_COOLING
LOGICAL.GSCEBG1D/U_S,0.0,V,ECOOLER_COOLING
LOGICAL.GSCEBG2D/U_S,0.0,V,ECOOLER_COOLING
LOGICAL.GSCEBG3D/U_START_END_S,[800.0, 800.0],V,ECOOLER_COOLING
LOGICAL.GSCEBG4D/U_START_END_S,[800.0, 800.0],V,ECOOLER_COOLING
LOGICAL.GSCEMO5K/SOLENOID_GUN_I,382.077,A,ECOOLER_COOLING
LOGICAL.GSCEKX1G/STEERER_POS_S,-0.002,m,ECOOLER_COOLING
LOGICAL.GSCEKY1G/STEERER_POS_S,0.002,m,ECOOLER_COOLING
LOGICAL.GSCEKX3C/STEERER_ANG_S,5.0E-4,rad,ECOOLER_COOLING
LOGICAL.GSCEKY3C/STEERER_ANG_S,-2.0E-4,rad,ECOOLER_COOLING
LOGICAL.GSCEKX5K/STEERER_POS_S,0.002,m,ECOOLER_COOLING
LOGICAL.GSCEKY5K/STEERER_POS_S,-0.002,m,ECOOLER_COOLING
LOGICAL.GSCEKD1D/SOLENOID_I,0.682,A,ECOOLER_COOLING
LOGICAL.GSCEKD2D/SOLENOID_I,2.35,A,ECOOLER_COOLING
LOGICAL.SIS18_COOLER_EAUX/BETAE_S,0.1537,,ECOOLER_COOLING
LOGICAL.SIS18_COOLER_EAUX/NERF_S,1.7612405761647664E13,1/m³,ECOOLER_COOLING
LOGICAL.SIS18_COOLER_EAUX/UACC_S,6146.806,V,ECOOLER_COOLING
LOGICAL.SIS18_COOLER_EAUX/USC_START_END_S,[157.1268, 157.1268],V,ECOOLER_COOLING
SIS18_COOLER_EBEAM/BT,0.06,T,ECOOLER_COOLING
SIS18_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
SIS18_COOLER_EBEAM/EXPF_S,3.0,,ECOOLER_COOLING
SIS18_COOLER_EBEAM/GAMME_USER,1.001,,ECOOLER_COOLING
SIS18_COOLER_EBEAM/IE_S,0.2,A,ECOOLER_COOLING
SIS18_COOLER_EBEAM/OVERWRITE_GAMME_B,false,,ECOOLER_COOLING
SIS18_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
SIS18_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
SIS18_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
SIS18_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET
LOGICAL.GTE1KY1/VKICK,-0.0022,rad,TRANSFER_EXTRACTION
LOGICAL.GTE1QD11/K1L,0.2017,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE1QD12/K1L,-0.2374,1/m,TRANSFER_EXTRACTION
LOGICAL.GTS1MU1/HKICK,0.0,rad,TRANSFER_EXTRACTION
SIS18_TO_GTS1MU1_OPTICS/OPTIC_NAME_S,SIS18_TE_ESR_LEGACY,,TRANSFER_EXTRACTION
SIS18_TO_GTS1MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
SIS18_TO_GTS1MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_EXTRACTION
SIS18_TO_GTS1MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET
LOGICAL.GTE2KX1/HKICK,-0.002,rad,TRANSFER_EXTRACTION
LOGICAL.GTE2QT11/K1L,0.2487,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE2QT12/K1L,-0.4301,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE2QT13/K1L,0.3493,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE3MU1/HKICK,-0.001,rad,TRANSFER_EXTRACTION
GTS1MU1_TO_GTE3MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
GTS1MU1_TO_GTE3MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_EXTRACTION
GTS1MU1_TO_GTE3MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET
LOGICAL.GTE3KY1/VKICK,0.0,rad,TRANSFER_EXTRACTION
LOGICAL.GTE3QD11/K1L,0.4885,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE3QD12/K1L,-0.5615,1/m,TRANSFER_EXTRACTION
GTE3MU1_TO_GTE3UF_BEAM/E_S,5.36E8,eV/u,TRANSFER_EXTRACTION
GTE3MU1_TO_GTE3UF_BEAM/Q_S,73,,TRANSFER_EXTRACTION
GTE3MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
GTE3MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_EXTRACTION
GTE3MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET
LOGICAL.GTE3UF/OVERWRITE_TARGET_EOUT_B,true,,TRANSFER_EXTRACTION
LOGICAL.GTE3UF/TARGET_E_USER_S,3.748E8,eV/u,TRANSFER_EXTRACTION
LOGICAL.GTE3UF/TARGET_INBEAM_B,true,,TRANSFER_EXTRACTION
LOGICAL.GTE3UF/TARGET_PROPAGATE_B,true,,TRANSFER_EXTRACTION
LOGICAL.GTE3UF/TARGET_Q_PROD_S,92,,TRANSFER_EXTRACTION
LOGICAL.GTE4QD11/K1L,-0.5625,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE4QD12/K1L,0.4554,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE4MU1/HKICK,0.0011,rad,TRANSFER_EXTRACTION
LOGICAL.GTE4KY1/VKICK,-6.0E-4,rad,TRANSFER_EXTRACTION
LOGICAL.GTE4QT21/K1L,0.3805,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE4QT22/K1L,-0.4588,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE4QT23/K1L,0.2175,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE4MU2/HKICK,-3.0E-4,rad,TRANSFER_EXTRACTION
LOGICAL.GTE4KY2/VKICK,0.0,rad,TRANSFER_EXTRACTION
LOGICAL.GTE4QT31/K1L,-0.0032,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE4QT32/K1L,0.2113,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE4QT33/K1L,-0.2073,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE4KX3/HKICK,0.0,rad,TRANSFER_EXTRACTION
LOGICAL.GTE4KY3/VKICK,0.0015,rad,TRANSFER_EXTRACTION
GTE3UF_TO_GTS6MU1_BEAM/E_S,3.748E8,eV/u,TRANSFER_EXTRACTION
GTE3UF_TO_GTS6MU1_BEAM/Q_S,92,,TRANSFER_EXTRACTION
LOGICAL.GTS6MU1/HKICK,0.0,rad,TRANSFER_EXTRACTION
GTS6MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
GTS6MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_EXTRACTION
GTS6MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET
LOGICAL.GTE5KS1/K2L,0.0,1/m²,TRANSFER_EXTRACTION
LOGICAL.GTE5QD11/K1L,0.4,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE5QD12/K1L,-0.47,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE5KY1/VKICK,-0.002,rad,TRANSFER_EXTRACTION
GTS6MU1_TO_ESR_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
GTS6MU1_TO_ESR_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_EXTRACTION
GTS6MU1_TO_ESR_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET
LOGICAL.GTE5DSAH/SLIT_BRHODEVIATION_S,---,,TRANSFER_EXTRACTION
LOGICAL.GTE5DSAH/SLIT_LPOS_S,---,m,TRANSFER_EXTRACTION
LOGICAL.GTE5DSAH/SLIT_RPOS_S,---,m,TRANSFER_EXTRACTION
LOGICAL.GTE5DGCG/TARGET_INBEAM_B,---,,TRANSFER_EXTRACTION
LOGICAL.GTE5DGDG/TARGET_INBEAM_B,---,,TRANSFER_EXTRACTION
LOGICAL.GTE5MU0/HKICK,0.0015,rad,TRANSFER_EXTRACTION
LOGICAL.GTE5QD21/K1L,-0.9,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE5QD22/K1L,0.68,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE5DGAG/TARGET_INBEAM_B,---,,TRANSFER_EXTRACTION
LOGICAL.GTE5DGBG/TARGET_INBEAM_B,---,,TRANSFER_EXTRACTION |
68
|
Sat Apr 2 18:17:31 2022 |
Yuri | Accelerator | Photo-Identification | Just a photo of the ID |
Attachment 1: 9FFA52AA-1F75-470E-AD1B-E1A612A3F7D6.jpeg
|
|
69
|
Sat Apr 2 18:19:47 2022 |
Yuri | Accelerator | Scraping | |
Attachment 1: trim.3539D818-8003-4093-866E-2C4F619E614F.MOV
|
70
|
Sat Apr 2 18:28:47 2022 |
Markus/Bernd | Accelerator | SIS setting complete for fragments in ESR: 2022-04-02_18-09-10_SIS18_FAST_E142_20220325_110213.C1.txt | # Version: 1.2 # Comment: ParamModi Export at 2022-04-02T18:09:36.402593+02:00[Europe/Berlin] # Context: SIS18_FAST_E142_20220325_110213.C1 # Columns: PARAMETERNAME,VALUE,UNIT,BEAMPROCESSPURPOSE
LOGICAL.GTK7MU5/HKICK,0.0,rad,TRANSFER_INJECTION LOGICAL.GTK7MU5/HKICK_THEO,0.0018,rad,TRANSFER_INJECTION LOGICAL.GTK7BC1L/HKICK,0.0,rad,TRANSFER_INJECTION LOGICAL.GTK7BC1L/HKICK_THEO,-0.0035,rad,TRANSFER_INJECTION
LOGICAL.GTK7BC1L/THIGH_S,7.0E-5,s,TRANSFER_INJECTION GTK3MV4_TO_PLTKMH2_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
GTK3MV4_TO_PLTKMH2_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_INJECTION GTK3MV4_TO_PLTKMH2_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET
LOGICAL.GTK9MB1V/BUMPER_VKICK_S,0.0,rad,TRANSFER_INJECTION LOGICAL.GS12ME1I/ESEP_HKICK_S,0.0,rad,TRANSFER_INJECTION LOGICAL.GS12ME1I/ESEP_K0L_THEO_S,-0.049,rad,TRANSFER_INJECTION
LOGICAL.GS12MU3I/HKICK,0.0,rad,TRANSFER_INJECTION LOGICAL.GS12MU3I/K0L_THEO,-0.1535,rad,TRANSFER_INJECTION PLTKMH2_TO_SIS18_BEAM/MAX_PART_RATE_S,1.0E12,Hz,TRANSFER_INJECTION
PLTKMH2_TO_SIS18_BUMPER/BUMPER_CURVATURE_S,[0, 0],s,TRANSFER_INJECTION PLTKMH2_TO_SIS18_BUMPER/TFALL_S,1.7E-4,s,TRANSFER_INJECTION PLTKMH2_TO_SIS18_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
PLTKMH2_TO_SIS18_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_INJECTION PLTKMH2_TO_SIS18_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET LOGICAL.GS00BS1W/ACTIVE_S,false,,RING_EXTRACTION_FAST
LOGICAL.GS00BS1W/QRIPPLE_AMPL_START_S,0.0,V,RING_EXTRACTION_FAST LOGICAL.GS00BS1W/QRIPPLE_FREQ_START_S,0.0,Hz,RING_EXTRACTION_FAST LOGICAL.GS01MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS01MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS06MU4/BYP_HKICK_DELTA_S,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS06MU4/BYP_HKICK_START_S,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS01QS1F/B1L_CHIMNEY_S,6.876008,T,BEAMOUT_RESET LOGICAL.GS01KM2DV/VKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS01KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS01QS2D/B1L_CHIMNEY_S,-6.474563,T,BEAMOUT_RESET LOGICAL.GS02MU1A/HKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS02MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS02KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS02KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS03MU1A/HKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS03MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS03KH1I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION LOGICAL.GS03KH1I/SCALE_B0L_IPM_S,---,,RING_RAMP LOGICAL.GS03KV1I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION LOGICAL.GS03KV1I/SCALE_B0L_IPM_S,---,,RING_RAMP
LOGICAL.GS03KH2I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION LOGICAL.GS03KH2I/SCALE_B0L_IPM_S,---,,RING_RAMP LOGICAL.GS03KV2I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION LOGICAL.GS03KV2I/SCALE_B0L_IPM_S,---,,RING_RAMP
LOGICAL.GS03KH3I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION LOGICAL.GS03KH3I/SCALE_B0L_IPM_S,---,,RING_RAMP LOGICAL.GS03KV3I/SCALE_B0L_IPM_S,1.0,,RING_INJECTION LOGICAL.GS03KV3I/SCALE_B0L_IPM_S,---,,RING_RAMP
LOGICAL.GS03KM2DV/VKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS03KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS04MU2A/HKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS04MU2A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS04ME1E/ACTIVE_S,false,,RING_EXTRACTION_FAST LOGICAL.GS04KM2DV/VKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS04KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS05MU1A/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS05MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS05MQ1/K0L_S,0.0,rad,RING_INJECTION LOGICAL.GS05MQ1/K0L_S,---,rad,RING_RAMP LOGICAL.GS05MQ1/K0L_S,0.0,rad,RING_PRE_EXTRACTION LOGICAL.GS05MQ1/K0L_S,--
-,rad,RING_EXTRACTION_FAST LOGICAL.GS05MQ1/QKICKER_ACTIVE_B,---,,RING_INJECTION LOGICAL.GS05MQ1/QKICKER_ACTIVE_B,---,,RING_PRE_EXTRACTION LOGICAL.GS05KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS05KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS06MU2A/HKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS06MU2A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS06KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS06KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS07MU1A/HKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS07MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS07KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS07KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS08MU1A/HKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS08MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS08KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS08KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS09MU1A/HKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS09MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS09KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS09KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS10MU1A/HKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS10MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS10KX1/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS10KX1/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS10KX2/HKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS10KX2/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS10KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS10KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS11MU1A/HKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS11MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS11MU2/ACTIVE_S,false,,RING_INJECTION
LOGICAL.GS11MU2/B0L_CHIMNEY_S,4.82717365,Tm,BEAMOUT_RESET LOGICAL.GS11MU2/MEC_RELDAMPL_S,0.0,,RING_INJECTION LOGICAL.GS11MU2/MEC_RELDTIME_S,0.0,,RING_INJECTION LOGICAL.GS11KM2DV/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GS11KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST LOGICAL.GS12MU1A/HKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS12MU1A/HKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS12QS1F/B1L_CHIMNEY_S,6.876008,T,BEAMOUT_RESET LOGICAL.GS12KM2DV/VKICK_COC,0.0,rad,RING_INJECTION LOGICAL.GS12KM2DV/VKICK_COC,0.0,rad,RING_EXTRACTION_FAST
LOGICAL.GS12QS2D/B1L_CHIMNEY_S,-6.474563,T,BEAMOUT_RESET LOGICAL.GS12QS3T/B1L_CHIMNEY_S,0.580287,T,BEAMOUT_RESET SIS18B2B/B2B_KICK_START_OFFSET_S,-2.5E-5,s,RING_EXTRACTION_FAST
SIS18B2B/B2B_MODE_RAW_S,B2EXTRACTION,,RING_EXTRACTION_FAST SIS18B2B/B2B_PHASE_DIFFERENCE_S,0.0,deg,RING_EXTRACTION_FAST SIS18B2B/B2B_PREDEFINED_BY_COUPLING_B,true,,RING_EXTRACTION_FAST
SIS18B2B/B2B_TRIGGER_OFFSET_S,8.6,deg,RING_EXTRACTION_FAST SIS18BEAM/BEAM_MODE_S,1,,RING_INJECTION SIS18BEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_INJECTION SIS18BEAM/BUCKETFILL_RAW_S,[[0.0, 1.4]],,RING_BUNCHING
SIS18BEAM/BUCKETFILL_RAW_S,[[1.4, 2.0]],,RING_RAMP SIS18BEAM/BUCKETFILL_RAW_S,[[2.0, 3.0]],,RING_RF_MANIPULATION SIS18BEAM/BUCKETFILL_RAW_S,[[3.0, 10.0]],,RING_PRE_EXTRACTION SIS18BEAM/BUCKETFILL_RAW_S,[[10.0,
10.0]],,RING_EXTRACTION_FAST SIS18BEAM/BUCKETFILL_RAW_S,[[10.0, 10.0]],,RING_POST_EXTRACTION SIS18BEAM/CHIMNEY_B,true,,BEAMOUT_RESET SIS18BEAM/CH_END_S,-4.09258183,,RING_INJECTION
SIS18BEAM/CH_END_S,-6.45521578,,RING_RAMP SIS18BEAM/CH_END_S,---,,RING_PRE_EXTRACTION SIS18BEAM/CV_END_S,-5.63105355,,RING_INJECTION SIS18BEAM/CV_END_S,-4.10566257,,RING_RAMP SIS18BEAM/CV_END_S,--
-,,RING_PRE_EXTRACTION SIS18BEAM/DELTAR,-0.001,m,RING_INJECTION SIS18BEAM/DELTAR,0.0,m,RING_EXTRACTION_FAST SIS18BEAM/DPFREV,0.0,,RING_INJECTION SIS18BEAM/DPFREV,0.0,,RING_EXTRACTION_FAST SIS18BEAM/DP_OVER_P_S,8.0E-
4,,RING_INJECTION SIS18BEAM/ELEMENT_S,92,,RING_INJECTION SIS18BEAM/E_S,1.1205E7,eV/u,RING_INJECTION SIS18BEAM/E_S,5.395E8,eV/u,RING_RAMP SIS18BEAM/FINAL_HARMONIC_S,1,,RING_RF_MANIPULATION
SIS18BEAM/H_S,4,,RING_INJECTION SIS18BEAM/INJ_EMIH_S,1.5E-4,m*rad,RING_INJECTION SIS18BEAM/INJ_EMIV_S,5.0E-5,m*rad,RING_INJECTION SIS18BEAM/ISOTOPE_S,238,,RING_INJECTION SIS18BEAM/KL_AMPL_S,0.0,,RING_INJECTION
SIS18BEAM/KL_AMPL_S,0.0,,RING_BUNCHING SIS18BEAM/KL_AMPL_S,0.0,,RING_RAMP SIS18BEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION SIS18BEAM/KL_AMPL_S,0.0,,RING_PRE_EXTRACTION SIS18BEAM/KL_AMPL_S,0.0,,RING_EXTRACTION_FAST
SIS18BEAM/KL_AMPL_S,0.0,,RING_POST_EXTRACTION SIS18BEAM/KL_HARM_S,1,,RING_INJECTION SIS18BEAM/KL_HARM_S,1,,RING_BUNCHING SIS18BEAM/KL_HARM_S,1,,RING_RAMP SIS18BEAM/KL_HARM_S,1,,RING_RF_MANIPULATION
SIS18BEAM/KL_HARM_S,1,,RING_PRE_EXTRACTION SIS18BEAM/KL_HARM_S,1,,RING_EXTRACTION_FAST SIS18BEAM/KL_HARM_S,1,,RING_POST_EXTRACTION SIS18BEAM/KL_OFFSET_S,0.0,,RING_INJECTION
SIS18BEAM/KL_OFFSET_S,0.0,,RING_BUNCHING SIS18BEAM/KL_OFFSET_S,0.0,,RING_RAMP SIS18BEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION SIS18BEAM/KL_OFFSET_S,0.0,,RING_PRE_EXTRACTION
SIS18BEAM/KL_OFFSET_S,0.0,,RING_EXTRACTION_FAST SIS18BEAM/KL_OFFSET_S,0.0,,RING_POST_EXTRACTION SIS18BEAM/KL_PHASE_S,0.0,deg,RING_INJECTION SIS18BEAM/KL_PHASE_S,0.0,deg,RING_BUNCHING
SIS18BEAM/KL_PHASE_S,0.0,deg,RING_RAMP SIS18BEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION SIS18BEAM/KL_PHASE_S,0.0,deg,RING_PRE_EXTRACTION SIS18BEAM/KL_PHASE_S,0.0,deg,RING_EXTRACTION_FAST
SIS18BEAM/KL_PHASE_S,0.0,deg,RING_POST_EXTRACTION SIS18BEAM/NPARTICLES_S,1.0E8,,RING_INJECTION SIS18BEAM/QH_END_S,4.27,,RING_INJECTION SIS18BEAM/QH_END_S,4.27,,RING_RAMP SIS18BEAM/QH_END_S,4.3,,RING_PRE_EXTRACTION
SIS18BEAM/QV_END_S,3.24,,RING_INJECTION SIS18BEAM/QV_END_S,3.24,,RING_RAMP SIS18BEAM/QV_END_S,3.14,,RING_PRE_EXTRACTION SIS18BEAM/Q_S,73,,RING_INJECTION SIS18BTM/BTM_DELAYS_INPUT_S,[],s,RING_INJECTION
SIS18BTM/BTM_DELAYS_INPUT_S,[],s,RING_EXTRACTION_FAST SIS18BTM/BTM_DEVICES_INPUT_S,[],,RING_INJECTION SIS18BTM/BTM_DEVICES_INPUT_S,[],,RING_EXTRACTION_FAST SIS18BTM/BTM_EVENTS_INPUT_S,[],,RING_INJECTION
SIS18BTM/BTM_EVENTS_INPUT_S,[],,RING_EXTRACTION_FAST SIS18BTM/BTM_EXTRACTION_POINTS_INPUT_S,[],,RING_INJECTION SIS18BTM/BTM_EXTRACTION_POINTS_INPUT_S,[],,RING_EXTRACTION_FAST SIS18BUMPER/BUMPER_CURVATURE_S,[0,
0],s,RING_INJECTION SIS18BUMPER/BUMPER_KNOB_S,70.0,mm,RING_INJECTION SIS18BUMPER/BUMPER_RELDSLOPE_S,0.0,,RING_INJECTION SIS18BUMPER/TFALL_S,1.8E-4,s,RING_INJECTION
SIS18EKICKER/KICKER_KNOB_S,6.5,mrad,RING_EXTRACTION_FAST SIS18EKICKER/KICKER_MODE_S,1,,RING_EXTRACTION_FAST SIS18EKICKER/KICKER_START_S,76.5,deg,RING_EXTRACTION_FAST SIS18EKICKER/KICKER_TOFFSET1_S,2.0E-
6,s,RING_EXTRACTION_FAST SIS18EKICKER/NBUNCH1_INPUT_S,4,,RING_EXTRACTION_FAST SIS18EKICKER/TGX_TIMING_TRIGGERED_B,---,,RING_EXTRACTION_FAST SIS18IPM/IPM_ACTIVE_B,false,,RING_INJECTION
SIS18IPM/IPM_PLANE_S,HORIZONTAL,,RING_INJECTION SIS18OPTICS/OPTIC_NAME_S,SIS18_STANDARD_OPTICS_TABLE,,RING_INJECTION SIS18OPTICS/SIGMA_S,0.0,,RING_INJECTION SIS18OPTICS/SIGMA_S,0.0,,RING_RAMP
SIS18OPTICS/SIGMA_S,0.0,,RING_PRE_EXTRACTION SIS18OPTICS/TAU_ENDPOINT_S,0.0,,RING_RAMP SIS18OPTICS/TAU_ENDPOINT_S,0.0,,RING_PRE_EXTRACTION SIS18OPTICS/TAU_END_S,0.0,,RING_INJECTION
SIS18OPTICS/TAU_END_S,1.0,,RING_RAMP SIS18OPTICS/TAU_END_S,1.0,,RING_PRE_EXTRACTION SIS18OPTICS/TAU_NLP_S,0.0,,RING_RAMP SIS18OPTICS/TAU_NLP_S,0.0,,RING_PRE_EXTRACTION SIS18ORBIT/AMPL_ECB_CORR,0.0,,RING_INJECTION
SIS18ORBIT/COH01,0.009000000000000001,m,RING_INJECTION SIS18ORBIT/COH01,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COH02,-0.004,m,RING_INJECTION SIS18ORBIT/COH02,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH03,-0.006,m,RING_INJECTION SIS18ORBIT/COH03,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COH04,0.008,m,RING_INJECTION SIS18ORBIT/COH04,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COH05,-0.004,m,RING_INJECTION
SIS18ORBIT/COH05,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COH06,-0.003,m,RING_INJECTION SIS18ORBIT/COH06,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COH07,0.005,m,RING_INJECTION SIS18ORBIT/COH07,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COH08,-0.003,m,RING_INJECTION SIS18ORBIT/COH08,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COH09,0.004,m,RING_INJECTION SIS18ORBIT/COH09,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COH10,0.008,m,RING_INJECTION
SIS18ORBIT/COH10,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COH11,-0.004,m,RING_INJECTION SIS18ORBIT/COH11,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COH12,-0.01,m,RING_INJECTION SIS18ORBIT/COH12,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV01,0.005,m,RING_INJECTION SIS18ORBIT/COV01,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COV02,0.004,m,RING_INJECTION SIS18ORBIT/COV02,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COV03,-0.004,m,RING_INJECTION
SIS18ORBIT/COV03,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COV04,-0.002,m,RING_INJECTION SIS18ORBIT/COV04,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COV05,0.005,m,RING_INJECTION SIS18ORBIT/COV05,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV06,-0.004,m,RING_INJECTION SIS18ORBIT/COV06,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COV07,0.0,m,RING_INJECTION SIS18ORBIT/COV07,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COV08,0.0,m,RING_INJECTION
SIS18ORBIT/COV08,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COV09,0.0,m,RING_INJECTION SIS18ORBIT/COV09,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COV10,0.002,m,RING_INJECTION SIS18ORBIT/COV10,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/COV11,-0.004,m,RING_INJECTION SIS18ORBIT/COV11,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/COV12,-0.004,m,RING_INJECTION SIS18ORBIT/COV12,0.0,m,RING_EXTRACTION_FAST
SIS18ORBIT/EXTESEP_START_S,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/EXTMSEP_START_S,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/EXT_ESMS_START_S,0.0,m,RING_EXTRACTION_FAST SIS18ORBIT/XANG_ECB,0.0,rad,RING_INJECTION
SIS18ORBIT/XPOS_ECB,-0.001,m,RING_INJECTION SIS18ORBIT/YANG_ECB,0.0,rad,RING_INJECTION SIS18ORBIT/YPOS_ECB,0.0,m,RING_INJECTION SIS18QKICKER/QKICKER_EVENT_POSITION_S,0.5,,RING_INJECTION
SIS18QKICKER/QKICKER_EVENT_POSITION_S,0.5,,RING_PRE_EXTRACTION SIS18RF/BUNCH_ROTATE_ACTIVE_B,false,,RING_EXTRACTION_FAST SIS18RF/BUNCH_ROTATE_OFFSET_S,9.999999999999999E-5,s,RING_EXTRACTION_FAST
SIS18RF/CAVITYPATTERN_S,[true, false, false, true, true],,RING_INJECTION SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_INJECTION SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_BUNCHING SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_RAMP
SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_RF_MANIPULATION SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_PRE_EXTRACTION SIS18RF/CAVITY_MODE_2D_RAW_S,[],,RING_EXTRACTION_FAST SIS18RF/CAVITY_MODE_2D_RAW_S,
[],,RING_POST_EXTRACTION SIS18RF/CAVITY_TRANSFER_B,false,,RING_INJECTION SIS18RF/DUALH_ACTIVE_S,false,,RING_INJECTION SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_INJECTION SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_BUNCHING
SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RAMP SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_RF_MANIPULATION SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_PRE_EXTRACTION SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_EXTRACTION_FAST
SIS18RF/DUALH_RAW_S,[[-1.0, -1.0]],,RING_POST_EXTRACTION SIS18RF/PHASE_CHANGE_B,false,,RING_INJECTION SIS18RF/PHASE_OFFSET_S,40.0,deg,RING_INJECTION SIS18RF/RF_MANIPULATION_RAW_S,[],,RING_RAMP
SIS18RF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION SIS18RF/RF_MANIPULATION_TIMES_S,---,s,RING_RAMP SIS18RF/RF_MANIPULATION_TIMES_S,[0.065, 0.085],s,RING_RF_MANIPULATION SIS18RF/SEQUENTIAL_RF_B,false,,RING_INJECTION
SIS18RF/SIS18_STANDARD_RF_MANI_ENUM_S,REBUNCHING,,RING_RF_MANIPULATION SIS18RF/USE_CAVITY_MODE_MAP_B,true,,RING_INJECTION SIS18SYSTEM/GENERATE_MASP_MASKED_DEVICES_B,true,,RING_INJECTION
SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INJECTION SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_BUNCHING SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RAMP
SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_PRE_EXTRACTION SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_EXTRACTION_FAST
SIS18SYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_POST_EXTRACTION SIS18TIMEPARAM/BDOT_S,[2.0, 2.0],T/s,BEAMOUT_INIT SIS18TIMEPARAM/BDOT_S,[3.0, 3.0],T/s,RING_RAMP SIS18TIMEPARAM/BDOT_S,[4.0, 4.0],T/s,BEAMOUT_RESET
SIS18TIMEPARAM/BP_INDEX_B,[false, false, false],,RING_INJECTION SIS18TIMEPARAM/BP_INDEX_S,[-1, -1, -1],,RING_INJECTION SIS18TIMEPARAM/CHOPPER_OFFSET_S,6.0E-5,s,RING_INJECTION SIS18TIMEPARAM/EVENT_B,[false, false,
false],,RING_INJECTION SIS18TIMEPARAM/EVENT_ID_S,[0, 0, 0],,RING_INJECTION SIS18TIMEPARAM/MINPDIST_S,0.0,,BEAMOUT_INIT SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_INJECTION SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_BUNCHING
SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_RAMP SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_PRE_EXTRACTION SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_EXTRACTION_FAST
SIS18TIMEPARAM/MINPDIST_S,0.0,,RING_POST_EXTRACTION SIS18TIMEPARAM/MINPDIST_S,0.0,,BEAMOUT_RESET SIS18TIMEPARAM/NINJECTIONS_S,1,,RING_INJECTION SIS18TIMEPARAM/OFFSET_S,[0.0, 0.0, 0.0],s,RING_INJECTION
SIS18TIMEPARAM/TGRID_S,0.002,s,BEAMOUT_INIT SIS18TIMEPARAM/TGRID_S,0.002,s,RING_INJECTION SIS18TIMEPARAM/TGRID_S,0.002,s,RING_BUNCHING SIS18TIMEPARAM/TGRID_S,0.002,s,RING_RAMP
SIS18TIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION SIS18TIMEPARAM/TGRID_S,0.002,s,RING_PRE_EXTRACTION SIS18TIMEPARAM/TGRID_S,0.002,s,RING_EXTRACTION_FAST SIS18TIMEPARAM/TGRID_S,0.002,s,RING_POST_EXTRACTION
SIS18TIMEPARAM/TGRID_S,0.002,s,BEAMOUT_RESET SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INJECTION
SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_BUNCHING SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_RAMP SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_PRE_EXTRACTION
SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_EXTRACTION_FAST SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_POST_EXTRACTION SIS18TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET
SIS18TIMEPARAM/TMEASURE_S,0.0,s,BEAMOUT_INIT SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_INJECTION SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_BUNCHING SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_RAMP
SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_PRE_EXTRACTION SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_EXTRACTION_FAST
SIS18TIMEPARAM/TMEASURE_S,0.0,s,RING_POST_EXTRACTION SIS18TIMEPARAM/TMEASURE_S,0.0,s,BEAMOUT_RESET SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,BEAMOUT_INIT SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INJECTION
SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_BUNCHING SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RAMP SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION SIS18TIMEPARAM/TROUND_S,[0.032,
0.032],s,RING_PRE_EXTRACTION SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_EXTRACTION_FAST SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_POST_EXTRACTION SIS18TIMEPARAM/TROUND_S,[0.032, 0.032],s,BEAMOUT_RESET
SIS18TIMEPARAM/T_BP_LENGTH_S,0.17200000000000001,s,BEAMOUT_INIT SIS18TIMEPARAM/T_BP_LENGTH_S,0.5,s,RING_INJECTION SIS18TIMEPARAM/T_BP_LENGTH_S,0.032,s,RING_BUNCHING SIS18TIMEPARAM/T_BP_LENGTH_S,0.08,s,RING_RAMP
SIS18TIMEPARAM/T_BP_LENGTH_S,0.16,s,RING_RF_MANIPULATION SIS18TIMEPARAM/T_BP_LENGTH_S,0.04,s,RING_PRE_EXTRACTION SIS18TIMEPARAM/T_BP_LENGTH_S,0.016,s,RING_EXTRACTION_FAST
SIS18TIMEPARAM/T_BP_LENGTH_S,0.04,s,RING_POST_EXTRACTION SIS18TIMEPARAM/T_BP_LENGTH_S,0.084,s,BEAMOUT_RESET SIS18TIMEPARAM/T_WAIT_CHIMNEY_S,1.0,s,BEAMOUT_RESET SIS18TIMEPARAM/T_WAIT_S,0.04,s,BEAMOUT_INIT
SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_INJECTION SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_BUNCHING SIS18TIMEPARAM/T_WAIT_S,0.04,s,RING_RAMP SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_PRE_EXTRACTION SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_EXTRACTION_FAST SIS18TIMEPARAM/T_WAIT_S,0.0,s,RING_POST_EXTRACTION SIS18TIMEPARAM/T_WAIT_S,0.04,s,BEAMOUT_RESET
SIS18TIMEPARAM/UNILAC_BREQ_OFFSET_S,-0.046,s,RING_INJECTION SIS18TIMEPARAM/UNILAC_NOBEAM_INPUT_S,false,,RING_INJECTION SIS18TIMEPARAM/UNILAC_NO_REQUEST_B,false,,RING_INJECTION SIS18TIMEPARAM/UNILAC_TOFFSET_S,4.5E-
5,s,RING_INJECTION SIS18TIMEPARAM/UNILAC_VIRTACC_RAW_S,9,,RING_INJECTION LOGICAL.GSCEKY2G/TOROID_I,5.6826,A,ECOOLER_COOLING LOGICAL.GSCEKY4K/TOROID_I,5.6826,A,ECOOLER_COOLING
LOGICAL.GSCEMT4K/SOLENOID_I,360.402,A,ECOOLER_COOLING LOGICAL.GSCEBG1E/DELUACC_S,110.0,V,ECOOLER_COOLING LOGICAL.GSCEBG1E/UACC_START_END_S,[6413.9328, 6413.9328],V,ECOOLER_COOLING
LOGICAL.GSCEBG2T/U_GUN_START_END_S,[1667.5698, 1667.5698],V,ECOOLER_COOLING LOGICAL.GSCEBG3T/U_AN_START_END_S,[700.0, 700.0],V,ECOOLER_COOLING LOGICAL.GSCEBG4T/U_SUPPR_START_END_S,[530.0, 530.0],V,ECOOLER_COOLING
LOGICAL.GSCEBG5T/U_S,3000.0,V,ECOOLER_COOLING LOGICAL.GSCEBG1D/U_S,0.0,V,ECOOLER_COOLING LOGICAL.GSCEBG2D/U_S,0.0,V,ECOOLER_COOLING LOGICAL.GSCEBG3D/U_START_END_S,[800.0, 800.0],V,ECOOLER_COOLING
LOGICAL.GSCEBG4D/U_START_END_S,[800.0, 800.0],V,ECOOLER_COOLING LOGICAL.GSCEMO5K/SOLENOID_GUN_I,382.077,A,ECOOLER_COOLING LOGICAL.GSCEKX1G/STEERER_POS_S,-0.002,m,ECOOLER_COOLING
LOGICAL.GSCEKY1G/STEERER_POS_S,0.002,m,ECOOLER_COOLING LOGICAL.GSCEKX3C/STEERER_ANG_S,5.0E-4,rad,ECOOLER_COOLING LOGICAL.GSCEKY3C/STEERER_ANG_S,-2.0E-4,rad,ECOOLER_COOLING
LOGICAL.GSCEKX5K/STEERER_POS_S,0.002,m,ECOOLER_COOLING LOGICAL.GSCEKY5K/STEERER_POS_S,-0.002,m,ECOOLER_COOLING LOGICAL.GSCEKD1D/SOLENOID_I,0.682,A,ECOOLER_COOLING
LOGICAL.GSCEKD2D/SOLENOID_I,2.35,A,ECOOLER_COOLING LOGICAL.SIS18_COOLER_EAUX/BETAE_S,0.1537,,ECOOLER_COOLING LOGICAL.SIS18_COOLER_EAUX/NERF_S,1.7612405761647664E13,1/m³,ECOOLER_COOLING
LOGICAL.SIS18_COOLER_EAUX/UACC_S,6146.806,V,ECOOLER_COOLING LOGICAL.SIS18_COOLER_EAUX/USC_START_END_S,[157.1268, 157.1268],V,ECOOLER_COOLING SIS18_COOLER_EBEAM/BT,0.06,T,ECOOLER_COOLING
SIS18_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING SIS18_COOLER_EBEAM/EXPF_S,3.0,,ECOOLER_COOLING SIS18_COOLER_EBEAM/GAMME_USER,1.001,,ECOOLER_COOLING SIS18_COOLER_EBEAM/IE_S,0.2,A,ECOOLER_COOLING
SIS18_COOLER_EBEAM/OVERWRITE_GAMME_B,false,,ECOOLER_COOLING SIS18_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT SIS18_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
SIS18_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC SIS18_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET LOGICAL.GTE1KY1/VKICK,-0.0022,rad,TRANSFER_EXTRACTION
LOGICAL.GTE1QD11/K1L,0.2017,1/m,TRANSFER_EXTRACTION LOGICAL.GTE1QD12/K1L,-0.2374,1/m,TRANSFER_EXTRACTION LOGICAL.GTS1MU1/HKICK,0.0,rad,TRANSFER_EXTRACTION
SIS18_TO_GTS1MU1_OPTICS/OPTIC_NAME_S,SIS18_TE_ESR_LEGACY,,TRANSFER_EXTRACTION SIS18_TO_GTS1MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
SIS18_TO_GTS1MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_EXTRACTION SIS18_TO_GTS1MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET LOGICAL.GTE2KX1/HKICK,-0.002,rad,TRANSFER_EXTRACTION
LOGICAL.GTE2QT11/K1L,0.2487,1/m,TRANSFER_EXTRACTION LOGICAL.GTE2QT12/K1L,-0.4301,1/m,TRANSFER_EXTRACTION LOGICAL.GTE2QT13/K1L,0.3493,1/m,TRANSFER_EXTRACTION LOGICAL.GTE3MU1/HKICK,-0.001,rad,TRANSFER_EXTRACTION
GTS1MU1_TO_GTE3MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT GTS1MU1_TO_GTE3MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_EXTRACTION
GTS1MU1_TO_GTE3MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET LOGICAL.GTE3KY1/VKICK,0.0,rad,TRANSFER_EXTRACTION LOGICAL.GTE3QD11/K1L,0.4885,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE3QD12/K1L,-0.5615,1/m,TRANSFER_EXTRACTION GTE3MU1_TO_GTE3UF_BEAM/E_S,5.395E8,eV/u,TRANSFER_EXTRACTION GTE3MU1_TO_GTE3UF_BEAM/Q_S,73,,TRANSFER_EXTRACTION
GTE3MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT GTE3MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_EXTRACTION
GTE3MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET LOGICAL.GTE3UF/OVERWRITE_TARGET_EOUT_B,true,,TRANSFER_EXTRACTION
LOGICAL.GTE3UF/TARGET_E_USER_S,3.748E8,eV/u,TRANSFER_EXTRACTION LOGICAL.GTE3UF/TARGET_INBEAM_B,true,,TRANSFER_EXTRACTION LOGICAL.GTE3UF/TARGET_PROPAGATE_B,true,,TRANSFER_EXTRACTION
LOGICAL.GTE3UF/TARGET_Q_PROD_S,92,,TRANSFER_EXTRACTION LOGICAL.GTE4QD11/K1L,-0.5625,1/m,TRANSFER_EXTRACTION LOGICAL.GTE4QD12/K1L,0.4554,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE4MU1/HKICK,0.0011,rad,TRANSFER_EXTRACTION LOGICAL.GTE4KY1/VKICK,-6.0E-4,rad,TRANSFER_EXTRACTION LOGICAL.GTE4QT21/K1L,0.3805,1/m,TRANSFER_EXTRACTION LOGICAL.GTE4QT22/K1L,-0.4588,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE4QT23/K1L,0.2175,1/m,TRANSFER_EXTRACTION LOGICAL.GTE4MU2/HKICK,-3.0E-4,rad,TRANSFER_EXTRACTION LOGICAL.GTE4KY2/VKICK,0.0,rad,TRANSFER_EXTRACTION LOGICAL.GTE4QT31/K1L,-0.0032,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE4QT32/K1L,0.2113,1/m,TRANSFER_EXTRACTION LOGICAL.GTE4QT33/K1L,-0.2073,1/m,TRANSFER_EXTRACTION LOGICAL.GTE4KX3/HKICK,0.0,rad,TRANSFER_EXTRACTION LOGICAL.GTE4KY3/VKICK,0.0015,rad,TRANSFER_EXTRACTION
GTE3UF_TO_GTS6MU1_BEAM/E_S,3.748E8,eV/u,TRANSFER_EXTRACTION GTE3UF_TO_GTS6MU1_BEAM/Q_S,92,,TRANSFER_EXTRACTION LOGICAL.GTS6MU1/HKICK,0.0,rad,TRANSFER_EXTRACTION
GTS6MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT GTS6MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_EXTRACTION
GTS6MU1_TO_GTS6MU1_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET LOGICAL.GTE5KS1/K2L,0.0,1/m²,TRANSFER_EXTRACTION LOGICAL.GTE5QD11/K1L,0.4,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE5QD12/K1L,-0.47,1/m,TRANSFER_EXTRACTION LOGICAL.GTE5KY1/VKICK,-0.002,rad,TRANSFER_EXTRACTION GTS6MU1_TO_ESR_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_INIT
GTS6MU1_TO_ESR_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,TRANSFER_EXTRACTION GTS6MU1_TO_ESR_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RESET LOGICAL.GTE5DSAH/SLIT_BRHODEVIATION_S,--
-,,TRANSFER_EXTRACTION LOGICAL.GTE5DSAH/SLIT_LPOS_S,---,m,TRANSFER_EXTRACTION LOGICAL.GTE5DSAH/SLIT_RPOS_S,---,m,TRANSFER_EXTRACTION LOGICAL.GTE5DGCG/TARGET_INBEAM_B,---,,TRANSFER_EXTRACTION
LOGICAL.GTE5DGDG/TARGET_INBEAM_B,---,,TRANSFER_EXTRACTION LOGICAL.GTE5MU0/HKICK,0.0015,rad,TRANSFER_EXTRACTION LOGICAL.GTE5QD21/K1L,-0.9,1/m,TRANSFER_EXTRACTION LOGICAL.GTE5QD22/K1L,0.68,1/m,TRANSFER_EXTRACTION
LOGICAL.GTE5DGAG/TARGET_INBEAM_B,---,,TRANSFER_EXTRACTION |
74
|
Sun Apr 3 10:28:25 2022 |
Yuri (Helmut Weick) | Accelerator | Distance cooler - detector | Calculation from Helmut Weick
Distance e-cooler to particle detectors chamber:
“This is half of ESR plus distance target - detector. This even is on the web page”
54.28 m + 21.64 m |
75
|
Sun Apr 3 10:35:20 2022 |
Yuri (Sergey) | Accelerator | Dipole correction | The ramp for moving the beam to the central orbit
To be inserted into manipulation, GE01MU1 (SC 5): 1.05969755 rad
This can be done only when one stays in the manipulation 5
Afterwards “Manipulieren” and not “An Geräte schicken” |
76
|
Sun Apr 3 11:01:57 2022 |
Rodolfo | Accelerator | Scrapers @ E-Cooler | We the mid- and night shift (Wilfried, Simon, Patrick, Ken and me) we not able to manipulate the scrapers in the E-Cooler.
- Carsten contacted Markus concerning this issue.
- Markus replied one should follows the instructions he forward us. They are given in Entry 39 (this e-log)
- Zitat vom Markus:
"ich hatte die Scraper ja letzte Woche getestet und war zu einem vergleichbaren (Negativ-)Resultat gekommen.
Daraufhin hatte ich den Experten gebeten, die Scraper zu überprüfen, was in der Anleitung resultierte, die ich Carsten geschickt habe.
Im Gespräch habe ich verstanden, dass das Problem in der (modifizierten ?) Frontend-Software liegt.
Da nützt dann auch ein anderes Programm, ähnlich Nodal, nichts. Nodal gibt es nicht mehr, das Programm Prophelper bietet jetzt vergleichbare Möglichkeiten, aber da muss man schon wissen, was man tun will/tut."
Google translation:
"I had tested the scraper last week and had come to a comparable (negative) result.
I then asked the expert to review the scrapers, which resulted in the instructions I sent to Carsten.
During the conversation I understood that the problem lies in the (modified ?) frontend software.
Then another program, similar to Nodal, is useless. Nodal no longer exists, the Prophelper program now offers comparable options, but you have to know what you want to do/do." |
93
|
Tue Apr 5 09:39:01 2022 |
Danyal & Yuri | Accelerator | Strahl ist wieder im ESR - Schlitz war reingefahren | Der Strahl ist wieder im ESR!
Angeblich war einen Schlitz, oder sogar 2, reingefahren worden.
Es könnte entweder der GEEXDR11S und/oder den GEEXDR1AS gewesen sein.
Wir haben jetzt folgende Parameter:
SIS Injektionsenergie = 537.5 MeV/u (haben wir nicht geändert)
Chopper window 70 us (nicht geändert)
Wir haben jetzt etwa 1.2e9 Ionen pro Injektion im ESR |
94
|
Tue Apr 5 09:45:47 2022 |
Danyal & Yuri | Accelerator | beam is back in the ESR - a slit was moved in | And now also in English :)
The ion beam is back in the ESR!
Apparently, there was a slit moved in. (Maybe even 2)
This could have been GEEXDR11S and/or the GEEXDR1AS
We now have the following parameters:
SIS injection energy = 537.5 MeV/u (we did not change this)
Chopper window 70 us (we did not change this)
We now have about 1.2e9 ions per injection in the ESR |
103
|
Tue Apr 5 23:07:34 2022 |
Carsten | Accelerator | 229Th89+ identification after re-tuning of the ESR | The ESR was retuned this aftenoon since the it was unclear if we still sit the 229Th89+ line.
This lead to new ring settings (data with all the settings will be put in tomorrow).
Thhe ESR had to leave at around 1900 so we did not find the time for finetuning and adjustments of the bunching.
Yet, we performed the particle identification with:
- (1) Energy of the SIS in the maximum of 238U92+ (534MeV/u) but ring settings Brho etc. and Cooler voltage already for 229Th89+ (+1937 kV compared to optimal settings for 238U92+) (Ucool according to "green" voltage measurement in Messhütte)
- (2) Energy of SIS +3.5 MeV/u (maximiun of 229/89+ production), ESR with identical settings as for te ID run.
In setting (1) the priary beam is still in the ring aceptance and can be used as a unique identifier, but it is cooled very slowly.
In the measurement we typicall have 500mA at injection (fast cooling) and 100 mA for the measurement (lon glifetime of beam), but for the particle ID we also used 500MA in order toaccelerate cooling.
The ion beam slowlly grows as the ions are cooled in and gets the strongest line but also fades out much faster than the other peakks during a much higher recombination (=capture of cooler electron) than the 229Th89+. (Empty K-shell comared to 1e- in K-shell => factor of 2 recombination in cooler).
Frequencies (stopped in machine 5):
242.047 MHz (238U92+, @ 500mA) in machine #5
242.277 MHz (229/89+, @ 500mA) in machine #5
minus 4.65kHz for 100mA ecurrent
Voltage settings for cooler:
Sc3 (500mA, 209794V)
SC5,7 (100mA, 209750.06V) |
107
|
Wed Apr 6 09:30:53 2022 |
Danyal | Accelerator | ESR is blue again - errors are fixed | The ESR is "blue" again.
The errors (scu related) have been fixed.
In principle, normal operation should be possible.
After the morning meeting Regina will return to the main control room.
I guess that we continue at 10 AM. |
111
|
Wed Apr 6 15:19:29 2022 |
Svea, Shahab | Accelerator | 5s delay implemented before injection | Operators have informed us that for better stability and operation (and cooperation with HHT), and after discussing with Sergey, they have introduced 5s delay "Wartezeit RESET" before every injection.
We have to observe this new behavior and in case it needs further optimizations, we have to inform the operators. |
112
|
Wed Apr 6 16:01:07 2022 |
BL | Accelerator | ESR settings before adjusting laser: 2022-04-06_14-37-30_ESR_EXP22_02_238U92_Brandau_30March22.C1.txt | # Version: 1.2
# Comment: ParamModi Export at 2022-04-06T14:37:35.957978+02:00[Europe/Berlin]
# Context: ESR_EXP22_02_238U92_Brandau_30March22.C1
# Columns: PARAMETERNAME,VALUE,UNIT,BEAMPROCESSPURPOSE
LOGICAL.GE01MU4I/MSEP_HKICK_S,0.0055,rad,RING_INJECTION
LOGICAL.GE01QS8F/K1L,0.392284,1/m,RING_INJECTION
LOGICAL.GE01QS8F/K1L,0.392284,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS8F/K1L,0.392284,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS8F/K1L,0.392284,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS9D/K1L,-0.4256532,1/m,RING_INJECTION
LOGICAL.GE01QS9D/K1L,-0.4256532,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS9D/K1L,-0.4256532,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS9D/K1L,-0.4256532,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01KY4/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY1/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX1/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX1/HKICK_ECB,-0.0020715533,rad,RING_INJECTION
LOGICAL.GE02KX2/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX2/HKICK_ECB,-3.000492E-4,rad,RING_INJECTION
LOGICAL.GE02KS1/K2L,-0.189870882,1/m²,RING_INJECTION
LOGICAL.GE02KS1/K2L,-0.189870882,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS1/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS1/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS2/K2L,0.139882922,1/m²,RING_INJECTION
LOGICAL.GE02KS2/K2L,0.139882922,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS2/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS2/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KY2/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.129,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.129,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.02,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.02,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.02,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.129,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.129,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.1,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION1_S,-0.1,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.129,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.129,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.02,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.02,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.02,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.129,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.129,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.1,m,RING_INTERMEDIATE
LOGICAL.GE02DD2_G/PPOS_POSITION2_S,-0.1,m,RING_INTERMEDIATE
LOGICAL.GE02MK/KICKER_HKICK_S,-0.005,rad,RING_INJECTION
LOGICAL.GE02KX3/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX4/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE02KY3/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KS3/K2L,0.139882922,1/m²,RING_INJECTION
LOGICAL.GE02KS3/K2L,0.139882922,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS3/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS3/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS4/K2L,-0.189870882,1/m²,RING_INJECTION
LOGICAL.GE02KS4/K2L,-0.189870882,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS4/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KS4/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE02KX5/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX5/HKICK_TAB,-0.002652,rad,RING_INJECTION
LOGICAL.GE02KX6/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KX6/HKICK_TAB,0.001651,rad,RING_INJECTION
LOGICAL.GE02KY4/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE02KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE02KY4/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEEXDS1HG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GEITKX1/K0L_SPEC_S,1.047198,rad,RING_INJECTION
LOGICAL.GEITQT11/K1L_SPEC_S,-0.293044,1/m,RING_INJECTION
LOGICAL.GEITQT12/K1L_SPEC_S,0.820468,1/m,RING_INJECTION
LOGICAL.GEITQT13/K1L_SPEC_S,-0.293044,1/m,RING_INJECTION
LOGICAL.GEITKX2/K0L_SPEC_S,1.047198,rad,RING_INJECTION
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION1_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GEEXDD2IG/PPOS_POSITION2_S,0.125,m,RING_INTERMEDIATE
LOGICAL.GE01KY1/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY1/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01QS0D/K1L,-0.4256532,1/m,RING_INJECTION
LOGICAL.GE01QS0D/K1L,-0.4256532,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS0D/K1L,-0.4256532,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS0D/K1L,-0.4256532,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS1F/K1L,0.392284,1/m,RING_INJECTION
LOGICAL.GE01QS1F/K1L,0.392284,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS1F/K1L,0.392284,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS1F/K1L,0.392284,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01DD1IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD1IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION1_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01DD3IG/PPOS_POSITION2_S,0.1,m,RING_INTERMEDIATE
LOGICAL.GE01KX1/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX1/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX1/HKICK_TAB,-0.001651,rad,RING_INJECTION
LOGICAL.GE01KX2/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX2/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX2/HKICK_TAB,0.002652,rad,RING_INJECTION
LOGICAL.GE01MU1/K0L,1.04719755,rad,RING_INJECTION
LOGICAL.GE01MU1/K0L,1.04719755,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU1/K0L,1.04719755,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU1/K0L,1.04719755,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01QS2F/K1L,0.2845252,1/m,RING_INJECTION
LOGICAL.GE01QS2F/K1L,0.2845252,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS2F/K1L,0.2845252,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS2F/K1L,0.2845252,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01KS1/K2L,-0.189870882,1/m²,RING_INJECTION
LOGICAL.GE01KS1/K2L,-0.189870882,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS1/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS1/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01QS3D/K1L,-0.5744116,1/m,RING_INJECTION
LOGICAL.GE01QS3D/K1L,-0.5744116,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS3D/K1L,-0.5744116,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS3D/K1L,-0.5744116,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS4F/K1L,0.34865,1/m,RING_INJECTION
LOGICAL.GE01QS4F/K1L,0.34865,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS4F/K1L,0.34865,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS4F/K1L,0.34865,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01KS2/K2L,0.139882922,1/m²,RING_INJECTION
LOGICAL.GE01KS2/K2L,0.139882922,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS2/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS2/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KY2/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY2/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION1_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2IG/PPOS_POSITION2_S,0.127,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/ACTIVE_S,true,,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,-0.126,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,-0.126,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,-0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,-0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,-0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,-0.126,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,-0.126,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION1_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,-0.126,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,-0.126,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,-0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,-0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,-0.005,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,-0.126,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,-0.126,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE01DD2AG/PPOS_POSITION2_S,-0.125,m,RING_INTERMEDIATE
LOGICAL.GE01MU5L/MSEP_HKICK_S,0.0,rad,RING_INJECTION
LOGICAL.GE01MU5L/MSEP_HKICK_S,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU5L/MSEP_HKICK_S,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU5L/MSEP_HKICK_S,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU5L/MSEP_K0L_THEO_S,0.0,rad,RING_INJECTION
LOGICAL.GE01MU5L/MSEP_K0L_THEO_S,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU5L/MSEP_K0L_THEO_S,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01MU5L/MSEP_K0L_THEO_S,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX3/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX3/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX4/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX4/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/ACTIVE_S,false,,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION1_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,0.014,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01DS3HG/PPOS_POSITION2_S,-0.13,m,RING_INTERMEDIATE
LOGICAL.GE01KY3/VKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KY3/VKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KS3/K2L,0.139882922,1/m²,RING_INJECTION
LOGICAL.GE01KS3/K2L,0.139882922,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS3/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS3/K2L,0.139886222,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01QS5F/K1L,0.34865,1/m,RING_INJECTION
LOGICAL.GE01QS5F/K1L,0.34865,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS5F/K1L,0.34865,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS5F/K1L,0.34865,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS6D/K1L,-0.5744116,1/m,RING_INJECTION
LOGICAL.GE01QS6D/K1L,-0.5744116,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS6D/K1L,-0.5744116,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS6D/K1L,-0.5744116,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01KS4/K2L,-0.189870882,1/m²,RING_INJECTION
LOGICAL.GE01KS4/K2L,-0.189870882,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS4/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01KS4/K2L,-0.189886682,1/m²,STORAGE_MANIP_WAIT
LOGICAL.GE01QS7F/K1L,0.2845252,1/m,RING_INJECTION
LOGICAL.GE01QS7F/K1L,0.2845252,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS7F/K1L,0.2845252,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01QS7F/K1L,0.2845252,1/m,STORAGE_MANIP_WAIT
LOGICAL.GE01KX5/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX5/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX5/HKICK_ECB,-0.0022109508,rad,RING_INJECTION
LOGICAL.GE01KX6/HKICK_COC,0.0,rad,RING_INJECTION
LOGICAL.GE01KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX6/HKICK_COC,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GE01KX6/HKICK_ECB,0.0025045533,rad,RING_INJECTION
ESRB2B/B2B_TRIGGER_OFFSET_S,8.0,deg,RING_INJECTION
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_INJECTION
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_BUNCHING
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_RF_MANIPULATION
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_REBUNCHING
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_RAMP
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[0.0, 1.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[1.0, 1.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[1.0, 1.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[1.0, 1.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[1.0, 1.0]],,RING_RF_MANIPULATION
ESRBEAM/BUCKETFILL_RAW_S,[[1.0, 1.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[1.0, 1.0]],,RING_INTERMEDIATE
ESRBEAM/BUCKETFILL_RAW_S,[[1.0, 0.0]],,RING_INTERMEDIATE
ESRBEAM/CH_END_S,0.0,,RING_INJECTION
ESRBEAM/CH_END_S,1.0E-4,,RING_RAMP
ESRBEAM/CV_END_S,0.0,,RING_INJECTION
ESRBEAM/CV_END_S,1.0E-4,,RING_RAMP
ESRBEAM/DELTAR,0.0,m,RING_INJECTION
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,STORAGE_MANIP_WAIT
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,STORAGE_MANIP_WAIT
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,STORAGE_MANIP_WAIT
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DELTAR,0.0,m,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.0,,RING_INJECTION
ESRBEAM/DPFREV,0.0,,RING_BUNCHING
ESRBEAM/DPFREV,0.0,,RING_RF_MANIPULATION
ESRBEAM/DPFREV,0.0,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.0,,RING_REBUNCHING
ESRBEAM/DPFREV,0.0,,STORAGE_MANIP_WAIT
ESRBEAM/DPFREV,0.0,,RING_RAMP
ESRBEAM/DPFREV,0.00865,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.00865,,STORAGE_MANIP_WAIT
ESRBEAM/DPFREV,0.00865,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.00865,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.00865,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.00865,,STORAGE_MANIP_WAIT
ESRBEAM/DPFREV,0.00865,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.00865,,RING_RF_MANIPULATION
ESRBEAM/DPFREV,0.00865,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.00865,,RING_INTERMEDIATE
ESRBEAM/DPFREV,0.00865,,RING_INTERMEDIATE
ESRBEAM/ELEMENT_S,92,,RING_INJECTION
ESRBEAM/E_S,3.79E8,eV/u,RING_INJECTION
ESRBEAM/E_S,3.79E8,eV/u,RING_RAMP
ESRBEAM/H_S,2,,RING_INJECTION
ESRBEAM/INJ_BUNCHPATTERN_S,[true, true],,RING_INJECTION
ESRBEAM/INJ_EMIH_S,1.0E-5,m*rad,RING_INJECTION
ESRBEAM/INJ_EMIL_S,0.1,eVs/u,RING_INJECTION
ESRBEAM/INJ_EMIV_S,1.0E-5,m*rad,RING_INJECTION
ESRBEAM/ISOTOPE_S,238,,RING_INJECTION
ESRBEAM/KL_AMPL_S,0.0,,RING_INJECTION
ESRBEAM/KL_AMPL_S,0.0,,RING_BUNCHING
ESRBEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_REBUNCHING
ESRBEAM/KL_AMPL_S,---,,RING_RAMP
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_AMPL_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,1,,RING_INJECTION
ESRBEAM/KL_HARM_S,1,,RING_BUNCHING
ESRBEAM/KL_HARM_S,1,,RING_RF_MANIPULATION
ESRBEAM/KL_HARM_S,1,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,1,,RING_REBUNCHING
ESRBEAM/KL_HARM_S,---,,RING_RAMP
ESRBEAM/KL_HARM_S,1,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,1,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,1,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,1,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,1,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,1,,RING_RF_MANIPULATION
ESRBEAM/KL_HARM_S,1,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,1,,RING_INTERMEDIATE
ESRBEAM/KL_HARM_S,1,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INJECTION
ESRBEAM/KL_OFFSET_S,0.0,,RING_BUNCHING
ESRBEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_REBUNCHING
ESRBEAM/KL_OFFSET_S,---,,RING_RAMP
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_RF_MANIPULATION
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_OFFSET_S,0.0,,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INJECTION
ESRBEAM/KL_PHASE_S,0.0,deg,RING_BUNCHING
ESRBEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_REBUNCHING
ESRBEAM/KL_PHASE_S,---,deg,RING_RAMP
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_RF_MANIPULATION
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/KL_PHASE_S,0.0,deg,RING_INTERMEDIATE
ESRBEAM/NPARTICLES_S,0.0,,RING_INJECTION
ESRBEAM/QH_END_S,2.4174,,RING_INJECTION
ESRBEAM/QH_END_S,2.4174,,STORAGE_MANIP_WAIT
ESRBEAM/QH_END_S,2.4174,,RING_RAMP
ESRBEAM/QH_END_S,2.4174,,STORAGE_MANIP_WAIT
ESRBEAM/QH_END_S,2.4174,,STORAGE_MANIP_WAIT
ESRBEAM/QV_END_S,2.3943,,RING_INJECTION
ESRBEAM/QV_END_S,2.3943,,STORAGE_MANIP_WAIT
ESRBEAM/QV_END_S,2.3943,,RING_RAMP
ESRBEAM/QV_END_S,2.3943,,STORAGE_MANIP_WAIT
ESRBEAM/QV_END_S,2.3943,,STORAGE_MANIP_WAIT
ESRBEAM/Q_S,92,,RING_INJECTION
ESRIKICKER/KICKER_MODE_S,1,,RING_INJECTION
ESRIKICKER/KICKER_START_S,76.0,deg,RING_INJECTION
ESRIKICKER/KICKER_THIGH1_S,5.087240783885225E-7,s,RING_INJECTION
ESRIKICKER/KICKER_TOFFSET1_S,2.8E-6,s,RING_INJECTION
ESRIKICKER/NBUNCH1_INPUT_S,1,,RING_INJECTION
ESRIKICKER/TGX_TIMING_TRIGGERED_B,false,,RING_INJECTION
ESROPTICS/OPTIC_NAME_S,ESR_STANDARD_OPTICS_TABLE,,RING_INJECTION
ESROPTICS/TAU_END_S,0.0,,RING_INJECTION
ESROPTICS/TAU_END_S,0.0,,RING_RAMP
ESRORBIT/XANG_ECB,0.0,rad,RING_INJECTION
ESRORBIT/XANG_ECB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/XANG_ECB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/XANG_ECB,0.0,rad,STORAGE_MANIP_WAIT
ESRORBIT/XANG_TAB,0.0013000000000000002,rad,RING_INJECTION
ESRORBIT/XANG_TAB,0.0013000000000000002,rad,STORAGE_MANIP_WAIT
ESRORBIT/XANG_TAB,0.0013000000000000002,rad,STORAGE_MANIP_WAIT
ESRORBIT/XANG_TAB,0.0013000000000000002,rad,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_ECB,-0.005,m,RING_INJECTION
ESRORBIT/XPOS_ECB,-0.005,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_ECB,-0.005,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_ECB,-0.005,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK1,0.0,m,RING_INJECTION
ESRORBIT/XPOS_SCK1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK2,0.0,m,RING_INJECTION
ESRORBIT/XPOS_SCK2,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK2,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCK2,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP1,0.0,m,RING_INJECTION
ESRORBIT/XPOS_SCP1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP1,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP2,0.0,m,RING_INJECTION
ESRORBIT/XPOS_SCP2,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP2,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_SCP2,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_TAB,0.0,m,RING_INJECTION
ESRORBIT/XPOS_TAB,0.0,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_TAB,-0.008,m,STORAGE_MANIP_WAIT
ESRORBIT/XPOS_TAB,-0.008,m,STORAGE_MANIP_WAIT
ESRRF/CAVITYPATTERN_S,[false, false, true],,RING_INJECTION
ESRRF/CAVITY_MODE_2D_S,[],,RING_INJECTION
ESRRF/CAVITY_MODE_2D_S,[],,RING_BUNCHING
ESRRF/CAVITY_MODE_2D_S,[],,RING_RF_MANIPULATION
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_REBUNCHING
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_PERFORM
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_WAIT
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_RESTART_FGS
ESRRF/CAVITY_MODE_2D_S,[],,RING_RAMP
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_PERFORM
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_WAIT
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_RESTART_FGS
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_PERFORM
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_WAIT
ESRRF/CAVITY_MODE_2D_S,[],,STORAGE_MANIP_RESTART_FGS
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_RF_MANIPULATION
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/CAVITY_MODE_2D_S,[],,RING_INTERMEDIATE
ESRRF/DUALH_ACTIVE_S,false,,RING_INJECTION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INJECTION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_BUNCHING
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_RF_MANIPULATION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_REBUNCHING
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_RAMP
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_RF_MANIPULATION
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/DUALH_RAW_S,[[0.0, 0.0]],,RING_INTERMEDIATE
ESRRF/PHASE_OFFSET_S,0.0,deg,RING_INJECTION
ESRRF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION
ESRRF/RF_MANIPULATION_RAW_S,---,,RING_REBUNCHING
ESRRF/RF_MANIPULATION_RAW_S,[[5, -1, -1, -1]],,RING_RAMP
ESRRF/RF_MANIPULATION_RAW_S,[],,RING_RF_MANIPULATION
ESRRF/SEQUENTIAL_RF_B,true,,RING_INJECTION
ESRSPEC/E_SPEC_S,0.0,eV/u,RING_INJECTION
ESRSPEC/GAMMA_SPEC_USER_S,1.0,,RING_INJECTION
ESRSPEC/SPEC_ACTIVE_B,false,,RING_INJECTION
ESRSYSTEM/GENERATE_MASP_MASKED_DEVICES_B,false,,RING_INJECTION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INJECTION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_BUNCHING
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_REBUNCHING
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RAMP
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_RF_MANIPULATION
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRSYSTEM/MASP_MASKED_DEVICES_INPUT_S,---,,RING_INTERMEDIATE
ESRTIMEPARAM/BDOT_S,[0.3, 0.3],T/s,BEAMOUT_PRE
ESRTIMEPARAM/BDOT_S,[0.3, 0.3],T/s,RING_RAMP
ESRTIMEPARAM/BDOT_S,[0.3, 0.3],T/s,BEAMOUT_RAMP
ESRTIMEPARAM/BDOT_S,[0.3, 0.3],T/s,BEAMOUT_POST
ESRTIMEPARAM/BP_INDEX_B,---,,RING_INJECTION
ESRTIMEPARAM/BP_INDEX_S,---,,RING_INJECTION
ESRTIMEPARAM/COUPLING_TIMEOUT_S,---,s,RING_INJECTION
ESRTIMEPARAM/EVENT_B,---,,RING_INJECTION
ESRTIMEPARAM/EVENT_ID_S,---,,RING_INJECTION
ESRTIMEPARAM/MINPDIST_S,0.0,,BEAMOUT_PRE
ESRTIMEPARAM/MINPDIST_S,0.0,,STATIC
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INJECTION
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_BUNCHING
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_REBUNCHING
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RAMP
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_WAIT
ESRTIMEPARAM/MINPDIST_S,0.0,,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_RF_MANIPULATION
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,RING_INTERMEDIATE
ESRTIMEPARAM/MINPDIST_S,0.0,,BEAMOUT_RAMP
ESRTIMEPARAM/MINPDIST_S,0.0,,BEAMOUT_POST
ESRTIMEPARAM/OFFSET_S,---,s,RING_INJECTION
ESRTIMEPARAM/TGRID_S,0.002,s,BEAMOUT_PRE
ESRTIMEPARAM/TGRID_S,0.002,s,STATIC
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INJECTION
ESRTIMEPARAM/TGRID_S,0.002,s,RING_BUNCHING
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_REBUNCHING
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RAMP
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TGRID_S,0.002,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,RING_INTERMEDIATE
ESRTIMEPARAM/TGRID_S,0.002,s,BEAMOUT_RAMP
ESRTIMEPARAM/TGRID_S,0.002,s,BEAMOUT_POST
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INJECTION
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_BUNCHING
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_RAMP
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,RING_INTERMEDIATE
ESRTIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RAMP
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_INJECTION
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_BUNCHING
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_REBUNCHING
ESRTIMEPARAM/TMEASURE_S,---,s,RING_RAMP
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TMEASURE_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,BEAMOUT_PRE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STATIC
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INJECTION
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_BUNCHING
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_REBUNCHING
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RAMP
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_RF_MANIPULATION
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,RING_INTERMEDIATE
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,BEAMOUT_RAMP
ESRTIMEPARAM/TROUND_S,[0.032, 0.032],s,BEAMOUT_POST
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,BEAMOUT_PRE
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STATIC
ESRTIMEPARAM/T_BP_LENGTH_S,10.0,s,RING_INJECTION
ESRTIMEPARAM/T_BP_LENGTH_S,10.0,s,RING_BUNCHING
ESRTIMEPARAM/T_BP_LENGTH_S,0.2,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_BP_LENGTH_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.016,s,RING_REBUNCHING
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_BP_LENGTH_S,0.064,s,RING_RAMP
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.2,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.1,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,10.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,BEAMOUT_RAMP
ESRTIMEPARAM/T_BP_LENGTH_S,0.196,s,BEAMOUT_POST
ESRTIMEPARAM/T_WAIT_S,0.032,s,BEAMOUT_PRE
ESRTIMEPARAM/T_WAIT_S,0.0,s,STATIC
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INJECTION
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_BUNCHING
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_REBUNCHING
ESRTIMEPARAM/T_WAIT_S,0.04,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_WAIT_S,0.128,s,RING_RAMP
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.04,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.04,s,STORAGE_MANIP_PERFORM
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_WAIT
ESRTIMEPARAM/T_WAIT_S,0.0,s,STORAGE_MANIP_RESTART_FGS
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_RF_MANIPULATION
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.0,s,RING_INTERMEDIATE
ESRTIMEPARAM/T_WAIT_S,0.032,s,BEAMOUT_RAMP
ESRTIMEPARAM/T_WAIT_S,0.032,s,BEAMOUT_POST
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEMO1P/I,206.9,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKX1/I,430.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY1/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEMO3C/I,277.5,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEKT1G/I,138.7,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEMO4K/SOLENOID_I,534.54,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT3C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT4C/I,95.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKT5K/I,150.0,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY6G/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY7K/TOROID_I,127.8374,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKY8G/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKY9K/TOROID_I,83.586,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX3G/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY3G/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX4K/I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKY4K/I,-50.0,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/ECORR_ANG_I,0.0,A,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,0.0,rad,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,0.0,rad,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKX5C/STEERER_ANG_S,0.0,rad,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKX5C/STEERER_ANG_S,0.0,rad,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,0.0,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKX5C/STEERER_ANG_S,0.0,rad,ECOOLER_COOLING
LOGICAL.GECEKX5C/STEERER_ANG_S,0.0,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,-0.1818,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,-0.1818,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,-0.1818,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,-0.1818,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,-0.1818,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/ECORR_ANG_I,-0.1818,A,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,-2.5E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,-2.5E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,-2.5E-4,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKY5C/STEERER_ANG_S,-2.5E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,-2.5E-4,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKY5C/STEERER_ANG_S,-2.5E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,-2.5E-4,rad,STORAGE_MANIP_WAIT
LOGICAL.GECEKY5C/STEERER_ANG_S,-2.5E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKY5C/STEERER_ANG_S,-2.5E-4,rad,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD1D/I,0.98,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEKD2D/I,1.85,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEMT3G/I,301.9,A,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,3937.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,3937.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,3937.0,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG1E/DELUACC_S,3957.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,3957.0,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG1E/DELUACC_S,3957.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,3957.0,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG1E/DELUACC_S,3957.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/DELUACC_S,3957.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[209678.0449, 209678.0449],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[209678.0449, 209678.0449],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[209650.0595, 209650.0595],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[209650.0595, 209650.0595],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[209650.0595, 209650.0595],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/UACC_START_END_S,[209650.0595, 209650.0595],V,ECOOLER_COOLING
LOGICAL.GECEBG1E/U_COOLER,209678.0449,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG1E/U_COOLER,209650.0595,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG1E/U_COOLER,209650.0595,V,STORAGE_MANIP_WAIT
LOGICAL.GECEBG2T/U_COOLER,3538.9215,V,ECOOLER_COOLING
LOGICAL.GECEBG2T/U_COOLER,3538.9215,V,ECOOLER_COOLING
LOGICAL.GECEBG2T/U_COOLER,1404.4219,V,ECOOLER_COOLING
LOGICAL.GECEBG2T/U_COOLER,1404.4219,V,ECOOLER_COOLING
LOGICAL.GECEBG2T/U_COOLER,1404.4219,V,ECOOLER_COOLING
LOGICAL.GECEBG2T/U_COOLER,1404.4219,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG5T/U_GUN_S,2000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,3538.9215,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,3538.9215,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,1404.4219,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,1404.4219,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,1404.4219,V,ECOOLER_COOLING
LOGICAL.GECEBG6T/U_COOLER,1404.4219,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,280.0,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,280.0,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,220.0,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,220.0,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,220.0,V,ECOOLER_COOLING
LOGICAL.GECEBG7T/U_COOLER,220.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG8T/U_S,5000.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,308.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,308.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG1D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,308.0,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,308.0,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG2D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,308.0,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,308.0,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG3D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,308.0,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,308.0,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,242.0,V,ECOOLER_COOLING
LOGICAL.GECEBG4D/U_COOLER,242.0,V,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/BT,0.1,T,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_PERFORM
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_RESTART_FGS
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,BEAMOUT_RAMP
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_PERFORM
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_RESTART_FGS
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_PERFORM
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STORAGE_MANIP_RESTART_FGS
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,STATIC
ESR_COOLER_EBEAM/ECOOLER_ACTIVE_B,true,,BEAMOUT_RAMP
ESR_COOLER_EBEAM/GAMME_USER,1.4025,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.4025,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.4025,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.4025,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.4025,,ECOOLER_COOLING
ESR_COOLER_EBEAM/GAMME_USER,1.4025,,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.4,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.4,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.4,A,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/IE_S,0.1,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.1,A,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/IE_S,0.1,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.1,A,STORAGE_MANIP_WAIT
ESR_COOLER_EBEAM/IE_S,0.1,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/IE_S,0.1,A,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_EBEAM/OVERWRITE_GAMME_B,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RAMP
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,ECOOLER_COOLING
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,STATIC
ESR_COOLER_TIMEPARAM/TIMING_IS_LENGTH_CHANGED_S,true,,BEAMOUT_RAMP
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.7012,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.7012,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.7012,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.7012,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.7012,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/BETAE_S,0.7012,,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,4.1896966112323794E12,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,4.1896966112323794E12,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,1.0474241528080948E12,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,1.0474241528080948E12,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,1.0474241528080948E12,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/NERF_S,1.0474241528080948E12,1/m³,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,205677.0644,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,205677.0644,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,205677.0644,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,205677.0644,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,205677.0644,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/UACC_S,205677.0644,V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[63.9805, 63.9805],V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[63.9805, 63.9805],V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[15.9951, 15.9951],V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[15.9951, 15.9951],V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[15.9951, 15.9951],V,ECOOLER_COOLING
LOGICAL.ESR_COOLER_EAUX/USC_START_END_S,[15.9951, 15.9951],V,ECOOLER_COOLING |
113
|
Wed Apr 6 18:51:33 2022 |
Danyal & Carsten | Accelerator | target bump | This afternoon, we found out that Sergey has also implemented a "target bump".
Although we do not use a target, this bump is still convenient because
we can move the ion beam such that is passes perfectly through the Cu mirror.
The setting is -8 mm and 1.3 mrad (if I am not mistaken)
We tested the effect on the position of the ion beam using the
horizontal scrapers at the target: GEEXDS1HA and GEEXDS2HA.
With the target bump set to "zero" (0 mm and 0 mrad),
the ion beam passed 6-8 mm to the outside.
This way, it will e.g. not pass centrally through the slit in the Cu mirror.
With the target bump set to -8 mm and 1.3 mrad, which is the default setting, the ion beam passed centrally.
Therefore, we left the target bump like this. |
117
|
Wed Apr 6 22:29:55 2022 |
Patrick | Accelerator | ECooler voltages | ECooler voltages:
06.04:
22:30: 209676 V
00:14: 209647 V
07.04.:
00:46: 209647 V
04:06: 209648 V |
132
|
Thu Apr 7 08:43:19 2022 |
Danyal, Yuri, Ragan | Accelerator | again no injection in ESR - ESR kicker problem | we had no injections in the ESR again
it turned out that the injection kicker of the ESR has a problem |
134
|
Thu Apr 7 09:58:55 2022 |
Ragan, Yuri, Danyal | Accelerator | Kicker problem solved | The kicker problem is solved and the beam is back in the ESR. |
135
|
Thu Apr 7 10:10:31 2022 |
Ragan, Yuri, Danyal | Accelerator | Problem in UNILAC | The power supply of the UNILAC magnet is broken. The repair will take up to 6-7 hours. |
154
|
Fri Apr 8 09:13:38 2022 |
Ragan, Danyal | Accelerator | No beam | Cathode is being changed at the ion source. So no beam for the moment.
Sergey has been contacted to change from two ion bunches to a single ion bunch in the ESR. |
167
|
Fri Apr 8 15:42:20 2022 |
Yuri | Accelerator | Slits in the TE line | At around 15:00, The slits in the TE line were changed to :
TE4DS5HL -12 mm -> -20 mm
TE5DSAH 0 mm -> +15 mm |
173
|
Sat Apr 9 02:55:38 2022 |
Carsten | Accelerator | Kühlerausfall und Gründe dazu | Wir hatten heute Abend eine Kühlerausfall, der uns mehrere Stunden beschäftigt hat, weil gem. Anzeige in Device Control kein Netzteil mit „rot“ angezeigt/ausgefallen war (siehe unten).
Nach Rufbereitschaft Serge, dann Regina sowie Controls konnte zunächst gefunden werden, dass das Netzteil einer Clearingelektrode (GECEKD2D) keinen korrekten Wert hat. Problem mittels Operateur (Christoph ?) und Rufbereitschaft Contrls gelöst.
Kühler ist trotzdem jedes Mal ausgefallen, wenn man versucht hat, auch nur den geringsten Strom zu ziehen (mit Hilfe Telefonunterstüzung Regina).
Rufbereitschaft Jon.
Mit ihm haben wir dann herausgefunden, dass im Device-Control, bei Auswahl „Kühler“ UND wenn das Fenster nicht vollständig maximiert ist, die letzten drei Netzteile (ECEBG8T, ECEBG3D, ECEBG4D) nicht angezeigt werden und man auch den Scrollbalken nicht dorthin bewegen kann (ergo: nicht vorhanden sind…). Ist das Fenster von DC maximiert, tauche die Geräte wieder auf und ACH WUNDER ECEBG8T (Kollektor) ist rot, lässt sich einfach wieder zuschalten und auch der Rest wieder anschalten. Ein Fehler, den ich leicht hätte selber beheben können, wenn er denn nur angezeigt worden wäre.
Soll heißen: Man weiß zwar, das irgendwo ein Fehler ist, kriegt aber in diesem Modus das Gerät gar nicht angezeigt… |
175
|
Sat Apr 9 03:46:31 2022 |
Carsten | Accelerator | Slits in TE line | Changed GTEDSAH Rechts to 10mm |
176
|
Sat Apr 9 03:57:10 2022 |
Carsten | Accelerator | New Cooler voltage after the crash of the cooler | After the restart of the cooler the Ohmlabs divider showed a voltage 16V lower than before. This could also be seen as a slight shift in the Schottky lines w.r.t to the bunching frequency and the marker. Corrected
the voltages at injection to DeltaU +3963V and in Sc 5/7 to + 3943V. Now perfect match with the old Schottky frequency.
Note: During the crash we found out that the device GECEKD2D did not show proper values. GECEKD2D is responsible for clearing the cooler of slow trapped ions ("clearing electrode").
Hence, the 16V may be due to partial filling of the space charge potential of te elctron beam. |
201
|
Sun Apr 10 15:29:37 2022 |
Carsten,Sarper | Accelerator | Ecooler failed | Ecooler failed @15:23 Carsten is fixing it
Fixed @16:00 |
205
|
Mon Apr 11 07:54:37 2022 |
Danyal, Alexandre, Kristian, Sebastian | Accelerator | Jump in E-cooler voltage | We saw a jump in the E-cooler voltage at about 7:50.
jump from 209619 to 209610 V
At 7:56 it jumped back to 209619 V
seems stable now |
206
|
Mon Apr 11 10:17:01 2022 |
Danyal | Accelerator | Interlock - reset | 10:17
Wie heutemorgen in der Sitzung (morning briefing) vereinbart,
führt Herr Florenkowski einen Interlock und danach einen Reset von E02MK durch.
Das dauert nur ca. 15 min.
nach dem interlock wurde der ESR "rot"
Um 10:21 war das problem gelöst und der ESR war wieder "blau" |
209
|
Mon Apr 11 12:50:22 2022 |
Kristian | Accelerator | Th lifetime | We used the counter to measure the lifetime. During the 30 min scan time dropped only slowly.
During a longer break, e.g., when the laser flash lamps are changed, one could take data over a longer time. |
Attachment 1: ThLifetime.JPG
|
|
216
|
Tue Apr 12 12:41:20 2022 |
Alexandre, Sebastian | Accelerator | no beam in SIS18 | |
225
|
Thu Apr 14 06:29:18 2022 |
Max, Sebastian | Accelerator | lesser ESR injection intensity | We now have less ESR injection intensity (see screenshot attached).
This can also be seen in the count rate after "UNILAC/SIS failures".
Before failure: ~7k-8k
Now: 3k
The stored particles in the SIS are only in the range between 1.4 and 1.7e9 |
Attachment 1: 2022_04_14-lowCountRate-LesserESRInjection-SchottkyIntensity.JPG
|
|
226
|
Thu Apr 14 08:41:42 2022 |
Carsten | Accelerator | Low intensity at the experiment after series of failures during the night | After the recovery from the failures during the night, we see much lower intensity at the experiment (measured with the particle detector count rate).
Instead of 8000-10000 cts we see only 3000-4000cts at comparable SIS intensities.
Also ESR cooler seems to be slightly unstable (wiggling lines) during injection. However, it is visually evident from the Schottky that the injected intensity already is much lower than yesterday evening.
All devices in ESR are (seem to run ) runnng properly, and also slit position (PN devices) are ok.
I am going to open the slits iin the SIS ESR transfer beamline. It would be useful to check for the SIS-ESR timing. |
227
|
Thu Apr 14 10:57:11 2022 |
Carsten | Accelerator | Maintanence UNILAC / Op training | We had no beam since about 1000. Also, we are still trying to find out why we have such a low intensity in the expereimnt.
Presently, there is a planned maintenance in the UNILAC, beam is expected back in 25-30 mins.
The profile grid TE3 in the transfer beamline in front of the target will be used to check if the extracted SIS beam has changed compared to before the crash of the SIS.
All devices in the ESR seem to work normally including ramping of cooler current/voltage, dipole correction windings and sextupoles (all checked).
As we observed that coolng performace after injection is much worse Markus (Steck) suggested that we could try a longer manual cooling in machine 3 (pleae no cahnges in timimng) to see whether the SIS energy has changed (similar to about 1 week ago).
Cooler elctron current iis put back to 450ma (inejection / 40mA measurement). |
37
|
Tue Mar 29 12:47:26 2022 |
Ken Ueberholz | | Parameter setting for XUV and copper mirror detector | Some Default Settings for the XUV
Detector. The copper
mirror should always move fully in.
Possible positions: Between 0mm and 147mm.
Background was
very high for anything higher than 100mm
in the last
experiment. 50mm was optimal. This should
be tested again
with repaired and modified shields.
Good default values for the XUV detector
parameters have
been proven before to be:
Cathode: -5V
Movable shield: 0V
Fixed shield: 0V
Main coil: 8A
Secondary coil: -2.4A
(negative values set in hardware, only
positive software
inputs are possible) |
47
|
Fri Apr 1 00:27:27 2022 |
Carsten | | Settings Particle Detectors /Tests with primary beam | All the beam settings will be given in a separate post.
We have 238U92+ centered in the ring with typically a few times 10⁷ ions.
SA_SZ (GE02DD2_G): Voltage 1200 V, Recomnied peak was scraped at about -50 mm, set the detector position to -25 mm
We see very clean signals with amplitude 1,5V (Foto will follow). Threshhold: CFD "25" arb. units. count rate 8kHz - 10 kHz
Rise time 6ns (with all the cables).
NA_SZ (GE01DD2AG): No signals - cables in the ESR need to be checked
NI_SZ (GE01DD2IG): Can not be positioned, error from Control system: "Auftr. Stattus position set value out of range", Drive can however be positioned to the "Endlage innen" and "Endlage außen".
The Test above were with a DC beam. With a bunched beam we more rapidly loose the ions with the particle detector. |
50
|
Fri Apr 1 02:29:40 2022 |
Carsten | | ESR Cooler crashed | ESR cooler crashed. We could not restart the cooler. Since we had several other problems, we stop now. |
Draft
|
Sat Apr 2 01:02:39 2022 |
Carsten | | Test measurements with two DAQs | We do two measurements:
One measurement using the |
67
|
Sat Apr 2 17:47:16 2022 |
Ken Ueberholz | | Telefon, Gästehaus | My guesthouse phone number: 06159-71-2957 |
71
|
Sat Apr 2 22:43:36 2022 |
Carsten | | Ring set-up for 229/89+, scraped and bunched, Iel=500mA at injection and 100mA during measurment | The ring SIS/ESR were set up for 229/89+. Pölease note that this not only 1e- Th but ponteially also the isobars of Ac (0e-1)/Pa(2e-, strongest) and U(3e-).
SIS eenrgy plus 3.5 MeV/u w.r.t. to the 238U92+ settings. We nearly don't see any of the primary beam in the ring
Cooling energy is 208998 KeV (read from the ESR multimeter).
The positioning of the scrapers is automatized but needs to be checked again tomorrow.
In order to allow for a longer measurment time, the electron curent is 500mA only during injection but is decreased to 100mA during measurement (=> longer beam lifetime).
|
72
|
Sat Apr 2 23:16:55 2022 |
Carsten | | Cu mirror and CsI moved in and out of the ring | Ken tested the Cu-mirror and CsI disk Detector. They move without a problem and don't scrape the ion beam. |
73
|
Sun Apr 3 00:41:45 2022 |
Ken Ueberholz | | Xuv-Detektor Signale | The Xuv-detector cabel channels seem to be
wrongly labeled in the Messhütte (see
picture) and are propably also wrongly
connected. Need to be relabeled and reconnected either in the
messhütte or in the laserlab. I will look for the best
solution tomorrow morning. |
Attachment 1: 20220403_004944.jpg
|
|
81
|
Sun Apr 3 15:34:34 2022 |
Ken Ueberholz | | Xuv-Detektor CFD-treshhold | I co controlled all detector signals and
adjusted the threshold to be just above
the noise. I will double check this when
the detector can be moved in and we have a
beam. |
126
|
Thu Apr 7 04:48:58 2022 |
| | ToDo's for 07.04. | Some ToDo's for the next shift:
- Work on Laser stabilisation 2nd stage in the ESR
- Mesytec power supply of the xuv-detector crashed and needs to be restarted in the ESR. Simply turning it the crate off and on again)!!
- Fix wavemeter fluctuates
- Compare MBS event size of DAQ 1 ("by laser group") and DAQ 2 ("by Carsten"), DAQ 1 data size was ~2 times larger than DAQ 2 data size.
- Use lmd-files measured last night to test Go4-Analysis.
- Practice measurement procedure with beam, see Message ID: 124. |
144
|
Thu Apr 7 22:18:06 2022 |
Night shift 7.4-8.4 | | Next scans | DAQ1: lxg1927:/data.local2/BeamTimeTh22/
DAQ2: lxg0155:/data.local2/E142/
LMD file name DAQ1:229Thor
LMD file name DAQ2:229Th
Shottky and NTCAP started at 23:53, center freq. 242.2M, 10MIQs, -30dBm
Shottky marker pos: 243.973MHz
Time | SIS-intensity | cooler-HV | LMD-DAQ1 | LMD-DAQ2 | scan range(nm) | step width(nm) | dwell time(s) | comments
|
00:20 | 1.4e9 | 209617 | 0065-0067 | 7810 | 323.2-321.2 | 0.01 | 4 | buggy DAQ? see Elog, file 0068 empty
|
01:27 | 1.6e9 | 209606 | 0069-0070 | 7811 | 323.2-321.2 | 0.01 | 4 | buggy DAQ? see Elog, file 0071 empty
|
02:15 | 1.6e9 | 209611 | 0072-0073 | 7812 | 323.2-321.2 | 0.01 | 4 | buggy DAQ? see Elog, file 0074-0075, 7813-7814 empty
|
03:00 | 1.1e9 | ? | 0076-0077 | 7815 | 323.2-321.2 | 0.01 | 4 | buggy DAQ? see Elog and below, file 0078, 7816 empty
|
We were searching for a difference of a factor of twoin both DAQs. It turns out that the default value for the MBSstream server task is scale=2. In the main task this value is explicately set to scale=1. we will now (starting with filenumber: 0078) restart the 2nd DAQ with set stream_serv scale=1.
Also TDC is disabled.
From file number 0076 in DAQ2 : ADC thresholds:
unsigned short caen_V785AH_threshold_mod0 [32] =
{0x0100 , 0x0005 , 0x0004 , 0x0003 , 0x0004 , 0x0003 , 0x0005 , 0x0003 ,
0x0005 , 0x0004 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 ,
0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 ,
0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 };
Before the next scan, we realized, that the laser destabilized. For the rest of the shift we tried to get laser back online (see ID:149). |
156
|
Fri Apr 8 09:33:52 2022 |
Dayshift 1 8.4.2022 | | Reference Measurements | DAQ1: lxg1297:/data.local2/BeamTimeTh22/
DAQ2: lxg0155:/data.local2/E142/
LMD file name DAQ1:229Thor
LMD file name DAQ2:229Th
center freq. 242.2M, 10MIQs, -30dBm
Shottky marker pos: 243.973MHz
Time | SIS-intensity | cooler-HV | LMD-DAQ1 | LMD-DAQ2 | scan range(nm) | step width(nm) | dwell time(s) | comments
|
09:30 | ?? | 209614 | 0079 | 7817 | 323.2-321.2 | 0.01 | 4 | 2 loops
|
10:15 | 2.3e9 | 209611 | 0081 | 7820 | 321.0-320.0 | 0.01 | 8 | just 1 loop, aborted 2nd loop and started from 320.5-320.4 in 0.005 steps and 10s dwell time (300), started again from 320.5-320.4 in 0.005 steps and 10s dwell time (300)
|
We crosschecked the last measurements from the nightshift for reference measurements.
Now the ESR group start switching to 1 bunch. |
159
|
Fri Apr 8 11:02:04 2022 |
DW, YL, RSS, SL | | Change h=2 to h=1 | After changing to h=1
The frequency manipulation #5: f=242.021487MHz (124th harmonic) [no bunching]
Manipulation #7: f=242.021812 MHz [with bunching] |
168
|
Fri Apr 8 15:45:24 2022 |
YL | | Spectrum manipulation 5 | See attached |
Attachment 1: IMG_3027.JPG
|
|
177
|
Sat Apr 9 04:01:35 2022 |
Carsten | | 2nd DAQ | Switched the CAEN TDC back on and changed the threshoolds for the ADC to:
unsigned short caen_V785AH_threshold_mod0 [32] =
{0x0100 , 0x0004 , 0x0003 , 0x0002 , 0x0003 , 0x0002 , 0x0004 , 0x0002 ,
0x0004 , 0x0003 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 ,
0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 ,
0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 }; |
189
|
Sat Apr 9 19:50:40 2022 |
Carsten | | New thresholds for ADC of DAQ2 (starting with file0117) | unsigned short caen_V785AH_threshold_mod0 [32] =
{0x0100 , 0x0004 , 0x0003 , 0x0004 , 0x0005 , 0x0004 , 0x0006 , 0x0005 ,
0x0006 , 0x0005 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 ,
0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 ,
0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 , 0x0100 }; |
|
ELOG V3.1.5-fc6679b | |