| ID |
Date |
Author |
Category |
Subject |
|
30
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Fri Jun 7 11:14:04 2024 |
Rodolfo | Laser | Trigger-signal for MRC |
We are using a 2-Channel Function Generator (from Textronik) to generate the trigger signal for the MRC Beam Stabilization.
The triggers are (according to the MRC nomenclature):
- Tmin = 500 us.
- T1 = 40 us.
- T2 = 460 us. |
| Attachment 1: MRC_TriggerSignal_T1_06-06-2024.jpg
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| Attachment 2: MRC_TriggerSignal_T2_Tmin_06-06-2024.jpg
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| Attachment 3: GeneratorSettings_for_MRC_06-06-2024.jpg
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| Attachment 4: MRC_Parameters_06-06-2024_18-30.JPG
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31
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Fri Jun 7 15:29:50 2024 |
Rodolfo | Detectors | Stored beam @ ESR |
| One of the first PMT signals from the stored-ion beam @ ESR |
| Attachment 1: Storedbeam@ESR_2024-06-07_15-25-18.png
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78
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Sat Jun 15 03:46:34 2024 |
Night shift | Accelerator | GSI down |
All quadrupole and dipole magnets at SIS and ESR are out of order. Repairs can be expected earliest tomorrow evening. No shifts will take place before 6pm. Have a look at your mails for details. |
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61
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Thu Jun 13 12:05:31 2024 |
Konstantin, Peter, Jonas | Accelerator | RF-amplitude |
To realize the shortest bunches possible, we check the bunch length as a function of two different bunching amplitudes. With the bucket fill set to 1.0 we observe the spectra compiled in attachment 1. The second attachment is recorded with a bucket fill 0f 0.2.
For an RF amplitude of 0.2 we do not observe bunches any more but a coasting beam. In the shottky spectrum we can resolve a shift of the signal and thereby adjust the electron cooler voltage to the bunching frequency to within 1 V.
U_e-cooler = -104410 V
I_e-cooler = 80 mA |
| Attachment 1: Bunching80mA_BucketFill_10.png
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| Attachment 2: Bunching80mA_BucketFill_08.png
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76
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Fri Jun 14 13:14:29 2024 |
Konstantin, Bernhard, Peter, Lukas | General | DAQ crashes at :10 |
10 Minutes past a full hour (XX:10) the windows PCs (sometimes) loose connection.
This causes the labview server & the laser remote ctrl to crash.
reset:
- "sto ac" on first DAQ1
- restart labview server (medusa - run - make data available for mbs off/on)
- "sta ac" on first DAQ1
It can make sense to try to avoid laser scans in this time window if those crashes occur more regularly. |
|
49
|
Wed Jun 12 12:12:44 2024 |
Konstantin Mohr, Julien Spahn, Jonas Koedel, Bernhard Maass | Accelerator | First Scraper Scan |
Thorium is in the ESR, we have time to check the beam position with the scrapers.
Beam Intensity in the ring 6E-5
Laser stabilization:
x1: -0.050
y1: -0.244
x2: 0.151
y2: -0.489
DS1VU: starting in negatives, touches beam at -0.1mm, beam gone at 0.5mm (laser gone)
due to betatron oscillation, vertical beam center is +0.5mm, beam diameter 1.2mm
DS1HA: starting in negatives, hf artifacts are gone at -25mm, touches beam at -17.2mm, beam gone at -16.4mm (laser gone)
DS1HA: starting in positives, hf artifacts are gone at +2mm, touches beam at -7.1mm, beam gone at -7.9mm
horizontal beam center is at -12.2mm, beam diameter 2.1mm (scraper is 8mm wide)
DS2VU: starting in negatives, touches beam at 0.4mm, beam gone at 1.0mm (laser gone)
due to betatron oscillation, vertical beam center is 1.0mm, beam diameter 1.2mm
DS2HA: starting in positives, hf artifacts are gone at 6mm, touches beam at -3.5mm, beam gone at -4.3mm (laser is scraped)
DS2HA: starting in negatives, hf artifacts are gone at -27mm, touches beam at -14.4mm, beam gone at -14.1mm (laser is scraped)
horizontal beam center is at -9.2mm, beam diameter 2.9mm (scraper is 8mm wide)
After the measurement of the ion beam position we superimposed the laser beam (see attachment 1). |
| Attachment 1: SpatialBeamOverlap.png
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73
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Fri Jun 14 06:38:41 2024 |
Konstantin Mohr, Bernhard Maass, Peter Micke, Lukas Kau, Dounia Boudefla | Runs | Morning runs |
Very successful shift, no crashes until 11:10
Previous night shift had problems with the pulse laser starting around 3am.
Something was loose at the FCU. Rodolfo was called in and was able to fix it.
the scan direction is from higher wavelength to lower wavelength, even though it is noted otherwise here and in the software.
|
Time | Part. Det. Int | ESR-intensity | cooler-HV | LMD-DAQ1 Files | LMD-DAQ2 Files | scan range(nm) | number of positions | dwell time(s) | n loops | comments
| |
14.06.2024 06:35 | 36500 | 7e5 | 104410 | 59 | 76 | 550.1 - 550.9 | 201 | 1s | 3 |
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14.06.2024 07:00 | 24600 | 8e5 | 104409 | 60 | 77 | 550.1 - 550.9 | 201 | 1s | 3 |
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14.06.2024 07:23 | 22900 | 8e5 | 104410 | 61 | 78 | 550.1 - 550.9 | 201 | 1s | 3 |
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14.06.2024 07:44 | 27000 | 8e5 | 104410 | 62 | 79 | 550.1 - 550.9 | 201 | 1s | 3 |
| |
14.06.2024 08:06 | 31000 | 7e5 | 104410 | 63 | 80 | 550.1 - 550.9 | 201 | 1s | 3 |
| |
14.06.2024 08:29 | 29500 | 8e5 | 104410 | 64 | 81 | 550.1 - 550.9 | 201 | 1s | 3 |
| |
14.06.2024 08:52 | 26800 | 8e5 | 104410 | 65 | 82 | 550.1 - 550.9 | 201 | 1s | 3 |
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14.06.2024 09:13 | 33500 | 8e5 | 104410 | 66 | 83 | 550.1 - 550.9 | 201 | 1s | 3 |
| |
14.06.2024 09:35 | 15700 | 8e5 | 104410 | 67 | 84 | 550.1 - 550.9 | 201 | 1s | 3 | only 10 shots accumulation
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14.06.2024 09:59 | 35000 | 8e5 | 104410 | 68 | 85 | 550.1 - 550.9 | 201 | 1s | 3 | back to 30 shots accumulation
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14.06.2024 10:24 | 33600 | 8e5 | 104410 | 69 | 86 | 550.1 - 550.9 | 201 | 1s | 3 |
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14.06.2024 10:48 | 35500 | 9e5 | 104410 | 70 | 87 | 550.1 - 550.9 | 201 | 1s | 3 |
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14.06.2024 11:09 | | 8e5 | 104410 | 71 | 88 | 550.1 - 550.9 | 201 | 1s | 3 | data crash, labview disconnected
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2024-06-14 (note added): Intensities from ESR trafo are not reliable at low internisties, offset can change substantially. Use trafo only with ion numbers sginificantly higher than 1e6. |
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20
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Thu Jun 6 07:12:49 2024 |
Konstantin Mohr | Laser | T-Scraper |
The T-Scrapers can be driven by DeviceControl, which must be started from a console. To do so, first open the app-launcher and then select "Device Control", which is found under "Betrieb & Steuerung". Then select the appropriate context (should be the name of the experiment). After a short time the device icons will be present. The scrapers can be found in the last four columns and the second last row (see screenshot 1). By default, they should be colored like the following: DS1VU: green, DS1HA: yellow, DS2VU: green, DS2HA: yellow.
To test the scrapers, I made a measurement of the current laser position.
|
motor | laser position (mm) | screenshot | |
DS1VU (GECEDS1VU) | 0 | 2 | |
DS1HA (GECEDS1HA) | -10 | 3 | |
DS2VU (GECEDS2VU) | 2 | 4 | |
DS2HA (GECEDS2HA) | -8 | 5
|
Note that the interlock of DS2VU is overridden when DS2HA is at 3mm. The interlock of DS1VU is overridden when DS1HA is at -4mm. The horizontal scrapers can only be moved when the corresponding vertical motors have reached their inner end positions.
Compared to the last position of Bi the horizontal and vertical positions deviate by approximately 5mm at all axes. However, since the electron cooler was completely dis- and reassembled in the meantime, it seems to be a reasonable starting point. |
| Attachment 1: 2024-06-06_07-15-20-802.png
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| Attachment 2: 2024-06-06_07-19-33-924.png
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| Attachment 3: 2024-06-06_07-48-36-884.png
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| Attachment 4: 2024-06-06_07-52-31-343.png
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| Attachment 5: 2024-06-06_07-54-53-972.png
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| Attachment 6: MRC_Parameters_06-06-2024.JPG
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24
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Thu Jun 6 09:23:53 2024 |
Konstantin Mohr | DAQ | Timing |
The best way to adjust the bunch-laser timing is to start go4 (mbs must be running) from atppc023. Therefore use x2goclient and use the predefined session to access LXG1297. Start go4 as usual (Entry 10 + Entry 11).
With this preparation one can directly observe changes in the relative time between the common stop trigger and the photodiode signals (see Screenshot 3) when rotating the upper channel's fine adjustment wheel of the right dual timer above the laser table (see Screenshot 2, Don't touch the coarse adjustment wheel directly above!!!).
To ensure proper operation of Go4 make sure that it is closed in the ssh-session after the correct timing has been set!!! |
| Attachment 1: TimingSSH.png
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| Attachment 2: DualTimer.jpeg
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| Attachment 3: TimingAdjustment.JPG
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59
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Thu Jun 13 10:32:29 2024 |
Konstantin | Accelerator | (Proper) Cooler settings |
We change the acceleration voltage of the electron cooler and observe the platform high voltage and the count rate at the particle detector south.
Cooler current at 100mA.
|
set voltage | measured voltage | Schottky width | |
-40 | | | |
80 | | | |
-40 | | | |
100 | | | |
120 | | | |
-40 | | | |
-60 | | | |
-80 | | | |
-100 | | | |
-120 | | | |
-38 | | | |
-40 | | | |
-42 | | | |
-44 | | | |
-46 | | | |
-48 | | | |
-40 | | | |
-38 | | | |
-36 | | | |
-34 | |
|
with scraper driven in (first signal drop in attachment 2):
|
set voltage | measured voltage | Schottky width | |
-40 | | | |
-38 | | | |
-36 | | | |
-34 | | | |
-32 | | | |
-30 | | | |
-20 | | 25kHz | |
-10 | | 48kHz | |
-0 | | 63kHz | |
-40 | | | |
-42 | | | |
-44 | | | |
-46 | | | |
-56 | | 7kHz | |
-66 | | 19kHz | |
-76 | | 40kHz
|
5kHz Shottky width at proper cooling conditions.
Modified bunching HF in beam process 7 and 10 in Paramodi folder "Ring HF" to get coasting beam conditions.
Afterwards manipilated the electron current from 100mA to 200mA to 50mA in BP8. |
|
41
|
Tue Jun 11 09:17:46 2024 |
Julien, Konstantin, Lukas | DAQ | Important commands (DAQ1) |
To connect to the DAQ1 pc, open a terminal and type:
ssh atplaser@r4l-41
Enter password for user atplaser (note that you're typing on an English keyboard).
To start MBS on DAQ1 go to folder mbsrun/E0052/DAQ1 via "cd mbsrun/E0052/DAQ1" and start mbs by typing "mbs". If you want to ensure that you are in the correct folder list the content of the folder by using "ls -l". You should see the list depicted in the second attachment.
Finally, to start the data acquisition (ensure that the 'medusa' is running on atppc023) use commands
@startup
sta ac
within the mbs prompt. You should see a similar result as in attachment 3. Particularly, note the important line
"-R4L-41 :read_meb :connected successfully to LabView Server. ".
A more detailed compilation of commands within mbs is given in Entry 10.
If one wants to observe the current acquisition, one must open a second terminal and establish another ssh-connection to R4l-41. The "rate" command will then show the incoming events on mbs (see attachment 4). If something went wrong you will see that the event-rate goes down. This might be an indication that the connection to medusa has crashed (see attachment 5). |
| Attachment 1: SSH_Connection.png
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| Attachment 2: MBS_Start.png
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| Attachment 3: DAQ1_startup.png
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| Attachment 4: Rates.png
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| Attachment 5: Bildschirmfoto_2024-06-11_10-01-38.png
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43
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Tue Jun 11 21:38:35 2024 |
Julian, Imke, Rodolfo | Laser | Wavemeter HeNe long time stability |
The HeNe was running over night and the measured laser frequency of the wavemeter was logged, see picture.
A significant drift of around 300 MHz is visible during the night.
It is possible, that the laser lab got too cold during the night, as the pulsed laser was not running.
For now, we put the wavemeter in a thermoinsulator box... |
| Attachment 1: HeNe_LangeMessung_11-06-2024.JPG
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42
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Tue Jun 11 21:23:11 2024 |
Julian, Imke | General | How to read out voltage |
1.) If not already opened, open the Medusa Laser Control software, see picture:
2.) In the "view" submenu, choose "proteus status".
3.) At the bottom of the list, the K250 shows the scaled voltage. |
| Attachment 1: medusa1.JPG
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| Attachment 2: medusa3.png
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| Attachment 3: medusa4.png
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51
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Wed Jun 12 17:12:13 2024 |
Julian, Danyal, Rodolfo | Laser | Timing für 229Th89+ |
We did the timing Ion-Beam Laser-beam time overlap.
The ion revolution frequency (and therefore the bunching frequency) is: 1.5429 MHz. |
| Attachment 1: Timing_229Th89_12-06-2024.JPG
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69
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Thu Jun 13 18:23:46 2024 |
Julian | Laser | Restarting the laser controller |
If the laser controller is locked up again, the little display will show an error message after an attempted medusa scan.
To restart it, follow these steps:
1.) Unlock the beam stabilization.
2.) shut down medusa and the wavemeter software
3.) Turn off the 2 laser stages
4.) Close the shutter of the pumping laser
5.) Turn off and on the power button of the pulsed laser inside of the black box of the pump laser insertion.
To start again go back through the list. |
|
1
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Tue Apr 16 14:42:37 2024 |
Jan | General | G-PAC Proposal |
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| Attachment 1: G-22-00052.pdf
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4
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Mon May 27 13:37:31 2024 |
Jan | DAQ | MesyTec Shaper Control |
For the 2nd DAQ the MesyTec Shaper (MSCF manual) is used as a spectroscopy amplifier and CFD.
It is controlled via the MesyControlGUI, which is installed on SADPC055 with a USB->mesyBUS connection to the MSCF.
The GUI can be started on any lxg-machine with the litv-exp account using the command/alias "E0052_shaper".
litv-exp@lxgXXXX:~$ E0052_shaper
The GUI will find connected devices automatically and should show this:
Double click on the connection icon of "5 MSCF-16" to open the full config pane
In order to save the settings to a local config file (bottom right), select "combined" writing mode on the top left. It is set to "hardware" by default.
Gain and ShapingTime can be set per group of 4 channles, PZ and CFD Thresholds can be set per channel.
Be aware that the "total gain" shown in the Gain panel is not correct by default. To calculate the proper gain factors, you need to go to the "Settings" tab of the device and set the follwong values:
 |
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72
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Thu Jun 13 22:08:07 2024 |
Dayshift | Accelerator | Problems with Accelerator? |
It seems to be that there are some problems with the injections in the ESR.
The last 2 accumulation cycles showed that wheter only a small amount of ions are injected into the ESR or the injection is missing.
Photos of the last 2 accumulation cycles are attached.
We ask if there are some problems with the ESR or with the SIS18, because the particle number in the SIS18 is also decreasing... |
| Attachment 1: IMG_6064.jpg
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| Attachment 2: IMG_6065.jpg
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| Attachment 3: IMG_6066.jpg
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2
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Tue Apr 16 16:28:21 2024 |
Danyal | General | Great |
Thanks Jan! |
|
Draft
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Thu Jun 6 07:54:15 2024 |
Danyal | General | pressure gauges and ion pumps |
yesterday (05.06.2024), firstly, the two ion pumps (underneath the fluorescence chamber) were switched off by the vacuum group (Björn Mai, Tel: 3438). Secondly, the two pressure gauges (located near the target) were switched off. The pressure gauge at the fluo chamber is called E02VM3x and the pressure was 5.5e-11 mbar. The other gauge is called IG2 and located further south, it measured 3.7e-11 mbar. That was when ion pumps were still switched on. Since ~10:45 (05.06.2024), the two ion pumps and the two ion gauges are switched off. There was no measurable change in the pressure after switching off the ion pumps. |