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ID Date Author Category Subject Yeardown
  67   Fri Mar 20 01:11:58 2020 LaszloGeneralTarget - beam jntersection 
We have managed to find the target position with the beam by looking at the xray spectra. The trick was that at 10mev we 
only have a low increase in the xray rates, so.we went for 400Mev/u where the rate change was dramatic (see in the 
picture)
  68   Fri Mar 20 01:21:00 2020 LaszloGeneraltarget is switched on event based 
  69   Fri Mar 20 01:22:23 2020 ShahabRunsSetting for Gas target 
Setting for the machines.
  70   Fri Mar 20 01:36:48 2020 LaszloGeneral124Xe primary beam at 10Mev TargetON 
We didmt see any effect on the lifetime if the target is switched on. It is because we use only hydrogen target (but why 
is.it so?)
  71   Fri Mar 20 04:29:45 2020 JanDAQDAQ settings for the first night 
  72   Fri Mar 20 04:32:22 2020 ShahabRunsrun entry - run046 
beam: 124Xe54+
energy: 10 MeV/u

purpose: data with TARGET ON

Detector position (Si): -25 mm

run start at 04:31 , first file: run046_0001.lmd
run stop  at xx:xx , last file:  run0xx_0xxx.lmd

_______________________________________________________________________________

time: 04:31:44

ON Rates
Si_X:       1 Hz
Si_Y:       1 Hz
Xray_35:   3 Hz
Xray_90:   33 Hz
Xray_145:   23 Hz
BaF_OR:    2463 Hz

Si voltage:          60.02 V  
Si leakage current:  3.93 uA


SIS particles before:           2e9
ESR particles at injection:     5e7
ESR particles after decel.:     2e6
Target ON density:              1.8e13


copy and repeat the above (below the line) every 30 minutes
  73   Fri Mar 20 05:03:03 2020 ShahabRunsrun entry - run046 
beam: 124Xe54+
energy: 10 MeV/u

purpose: data with TARGET ON

Detector position (Si): -25 mm

run start at 04:31 , first file: run046_0001.lmd
run stop  at xx:xx , last file:  run0xx_0xxx.lmd

_______________________________________________________________________________

time: 05:00

ON Rates
Si_X:       1 Hz
Si_Y:       1 Hz
Xray_35:   3 Hz
Xray_90:   28 Hz
Xray_145:   24 Hz
BaF_OR:    2452 Hz

Si voltage:          60.02 V  
Si leakage current:  3.93 uA


SIS particles before:           2e9
ESR particles at injection:     5e7
ESR particles after decel.:     2e6
Target ON density:              1.8e13


copy and repeat the above (below the line) every 30 minutes
  74   Fri Mar 20 05:32:44 2020 ShahabRunsrun entry - run047 
beam: 124Xe54+
energy: 10 MeV/u

purpose: data with TARGET ON

Detector position (Si): -25 mm

run start at 05:30 , first file: run047_0001.lmd
run stop  at xx:xx , last file:  run0xx_0xxx.lmd

_______________________________________________________________________________

time: 05:30

ON Rates
Si_X:       0 Hz
Si_Y:       0 Hz
Xray_35:   2 Hz
Xray_90:   27 Hz
Xray_145:   20 Hz
BaF_OR:    2379 Hz

Si voltage:          60.02 V  
Si leakage current:  3.93 uA


SIS particles before:           2e9
ESR particles at injection:     5e7
ESR particles after decel.:     5e6
Target ON density:              1.97e13


copy and repeat the above (below the line) every 30 minutes
  75   Fri Mar 20 06:00:26 2020 ShahabRunsrun entry - run047 
beam: 124Xe54+
energy: 10 MeV/u

purpose: data with TARGET ON

Detector position (Si): -25 mm

run start at 05:30 , first file: run047_0001.lmd
run stop  at xx:xx , last file:  run0xx_0xxx.lmd

_______________________________________________________________________________

time: 06:00

ON Rates
Si_X:      1 Hz
Si_Y:       1 Hz
Xray_35:   3 Hz
Xray_90:   33 Hz
Xray_145:   23 Hz
BaF_OR:    2512 Hz

Si voltage:          60.02 V  
Si leakage current:  3.94 uA


SIS particles before:           2e9
ESR particles at injection:     5.3e7
ESR particles after decel.:     5.8e6
Target ON density:              1.97e13


copy and repeat the above (below the line) every 30 minutes
  76   Fri Mar 20 06:34:40 2020 ShahabRunsrun entry - run048 
beam: 124Xe54+
energy: 10 MeV/u

purpose: data with TARGET ON

Detector position (Si): -25 mm

run start at 06:33 , first file: run048_0001.lmd
run stop  at xx:xx , last file:  run0xx_0xxx.lmd

_______________________________________________________________________________

time: 06:36

ON Rates
Si_X:      0 Hz
Si_Y:       0 Hz
Xray_35:   0 Hz
Xray_90:   39 Hz
Xray_145:   16 Hz
BaF_OR:    2590 Hz

Si voltage:          60.02 V  
Si leakage current:  4.0 uA


SIS particles before:           2e9
ESR particles at injection:     5.8e7
ESR particles after decel.:     5.2e6
Target ON density:              1.55e13


copy and repeat the above (below the line) every 30 minutes
  77   Fri Mar 20 07:01:06 2020 ShahabRunsrun entry - run048 
beam: 124Xe54+
energy: 10 MeV/u

purpose: data with TARGET ON

Detector position (Si): -25 mm

run start at 06:33 , first file: run048_0001.lmd
run stop  at xx:xx , last file:  run0xx_0xxx.lmd

_______________________________________________________________________________

time: 07:00

ON Rates
Si_X:      0 Hz
Si_Y:       0 Hz
Xray_35:  1 Hz
Xray_90:   39 Hz
Xray_145:   38 Hz
BaF_OR:    2498 Hz

Si voltage:          60.02 V  
Si leakage current:  4.03 uA


SIS particles before:           2e9
ESR particles at injection:     5.8e7
ESR particles after decel.:     5.4e6
Target ON density:              1.57e13


copy and repeat the above (below the line) every 30 minutes
  78   Fri Mar 20 07:30:16 2020 Ragan, RuiJiuRunsrun entry - run049 
beam: 124Xe54+
energy: 10 MeV/u

purpose: data with TARGET ON

Detector position (Si): -25 mm

run start at 07:31 , first file: run049_0001.lmd
run stop  at xx:xx , last file:  run0xx_0xxx.lmd

_______________________________________________________________________________

time: 07:30

ON Rates
Si_X:      0 Hz
Si_Y:       0 Hz
Xray_35:  0 Hz
Xray_90:   35 Hz
Xray_145:   23 Hz
BaF_OR:    2483 Hz

Si voltage:          60.02 V  
Si leakage current:  4.02 uA


SIS particles before:           2.3e9
ESR particles at injection:     5.8e7
ESR particles after decel.:     5.8e6
Target ON density:              1.35e13


copy and repeat the above (below the line) every 30 minutes
  79   Fri Mar 20 08:01:40 2020 Ragan, RuiJiuRunsrun entry - run049 
beam: 124Xe54+
energy: 10 MeV/u

purpose: data with TARGET ON

Detector position (Si): -25 mm

run start at 07:31 , first file: run049_0001.lmd
run stop  at xx:xx , last file:  run0xx_0xxx.lmd

_______________________________________________________________________________

time: 08:00

ON Rates
Si_X:      0 Hz
Si_Y:       0 Hz
Xray_35:  2 Hz
Xray_90:   33 Hz
Xray_145:   29 Hz
BaF_OR:    2673 Hz

Si voltage:          60.01 V  
Si leakage current:  4.00 uA


SIS particles before:           2e9
ESR particles at injection:     5.7e7
ESR particles after decel.:     5.1e6
Target ON density:              1.5e13


copy and repeat the above (below the line) every 30 minutes
  80   Fri Mar 20 08:30:52 2020 Ragan, RuiJiuRunsrun entry - run049 
There is no beam due to water leakage in the transfer channel of SIS.

Stop file: run049 at 8:29 am
  81   Fri Mar 20 10:28:31 2020 Ragan, RuiJiuRunsrun entry - run050 
Beam is back at 10:27 am.
Open file: runstart050

beam: 124Xe54+
energy: 10 MeV/u

purpose: data with TARGET ON

Detector position (Si): -25 mm

run start at 10:27 , first file: run050_0001.lmd
run stop  at xx:xx , last file:  run0xx_0xxx.lmd

_______________________________________________________________________________

time: 10:30

ON Rates
Si_X:      0 Hz
Si_Y:       0 Hz
Xray_35:  2 Hz
Xray_90:   35 Hz
Xray_145:   27 Hz
BaF_OR:    2441 Hz

Si voltage:          60.02 V  
Si leakage current:  3.98 uA


SIS particles before:           2e9
ESR particles at injection:     5.8e7
ESR particles after decel.:     1.3e7
Target ON density:              1.38e13


copy and repeat the above (below the line) every 30 minutes
  82   Fri Mar 20 11:00:25 2020 Ragan, RuiJiuRunsrun entry - run050 
Yuri and ESR team are optimising 
the deceleration in ESR.
DSSSD detector is taken out at 
10:55 am.

The HV for DSSD is switched off at 
11:10 am as the detector was out 
and the leak current was ~18 uA.
At 11:11 am, the file was closed.
File close: run050 stopped.

update by Laszlo: the increase of the leakage current is due to the fact that we have a vacuum measurement device next to the DSSSD when it is moved out. The phenomena is normal, the DSSSD is hit by electrons (or ions) coming from the vacuum measurement device. 
  83   Fri Mar 20 13:21:33 2020 Jan, LaszloAnalysis124Xe data of first night 
The unpacked data of all runs from the first night (46-50) is located at
litv-exp@lxg0188:/data.local2/E127_lmd/124Xe_1st_night.root

By taking a very quick look at the Silicon xy position histo, one can identify (please not the number of counts) clusters of hits. The x=0 and x=1 strips sees the forward scattering Rutherford particles, which remained even after scraping at 3.5cm away from the beam. This idea is supported by the simulations. Backscattered Rutherford components cannot be identified simply because of their low count rate (the exact rate should be double check). The second cluster in the middle of the detector must be our pg peak. For x>=7 strip we see the pn channel. It overlaps with the pg peak both in the position and in the energy. The energy vs Xstrip histo is NOT gainmatched, yet. Hard to make statements, but so far it seem to support the conclusions based on the position histo. The energies seem to corrsepond to the simulation: forward Rutherford, pg at same level; pn is a bit below ( ~.8% energy separation of the centers). The separation in the enregy for the backscattered Rutherford should be in the range of 2%.
  84   Fri Mar 20 16:48:00 2020 LaszloGeneralflipped Si shaper output in x and y 
Yesterday evening we have found out that the energy signals from the silicon are negative --> wrong polarity of the shapers was chosen while using the jumpers.
Cables coming from the preamp are switched now. --> in the recorded data the X and Y coordinates of the Si strip detector is the other way around!
Hopefully, the left and right side we can judge well...
  85   Fri Mar 20 16:54:53 2020 JanDAQBaF OFF downscaled red=32 
I introduced a downscaling by a factor of 2^5=32 for the BaF2 during target OFF.
The reason is, that we get a lot reasonable x-ray counts (K-alpha, K-REC) outside target ON phase.
So i want to minimize our deadtime during target OFF, to be able to use the data efficiently if needed.
BaF2 is not really needed in target OFF.
  86   Fri Mar 20 16:58:02 2020 JanDAQXray2 & Xray3 cabling 
We found that Xray2 and Xray3 the cabling is not consistent:

90 degree detector 
> E_Xray2 for energy
> t_Xray3 for times

145 degree detector
> E_Xray3 for energy
> t_Xray2 for timing

35 degree detector
> E_Xray1
> t_Xray1

We can run like this, but should be aware of it!
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