HOME ESR EXPERIMENTS LABS etc
E121 E127 E132 E125 E143 laser_cooling_2021 E142 Ê128 E146 E0052 E0018 E0028 E0038
  proton-capture on 118Te, Page 28 of 29  Not logged in ELOG logo
Entry  Wed May 26 15:30:03 2021, Ragan, Thanassis, General, Changing the beam energy , 2021 
The ESR team is changing the beam energy to 6 MeV/u.
Entry  Thu May 6 11:03:46 2021, Jan Glorius, DAQ, Cabling Documentation, 2021 e127b_cabling_docu_06_05_2021_.pdfe127b_2021_cabling_documentation.xlsx
 
Entry  Sun May 16 13:31:49 2021, Laszlo, DAQ, Cabling Documentation, 2021 e127b_2021_cabling_documentation.xlsx
Si HV and current was switched in the last documentation.
Entry  Fri Jun 28 14:06:28 2019, Jan, General, CAD of (p,g) setup,  
 
Entry  Tue May 18 21:08:16 2021, ESR team, General, Beam stacking, 2021 5B6943AF-DF56-4B0F-A77E-1E3C65B3B0C0.jpegB590F232-450A-4ACF-BBA4-DB31B7B35FDA.jpeg
Beam stacking. 3 pulses, stochastically cooled and stacked on an inner orbit
Entry  Tue Jun 8 15:06:17 2021, Shahab, Analysis, Beam lifetime, 2021 pgamma_lifetime.001.pngpgamma_lifetime.002.png
measured beam lifetime after the second deceleration using parallel plate Schottky detector and the RSA5103 spectrum analyser. Analysis code can be found here:

https://github.com/xaratustrah/e127_scripts/

The plots here were produced using the script:

https://nbviewer.ipython.org/github/xaratustrah/e127_scripts/blob/main/lifetime_calculator.ipynb


UPDATE 2022-06-30:

Life times have been slightly corrected. Please see attachment.


Filename	Start Frame	Correct Lifetime [s]	Mean [s]
pgamma_lifetime-2021.05.25.21.56.37.593_on.tiq	29500	1.43	
pgamma_lifetime-2021.05.25.22.02.16.618_on.tiq	29500	1.55	1.49
pgamma_lifetime-2021.05.25.22.07.22.369_off.tiq	53500	1.75	
pgamma_lifetime-2021.05.25.22.13.24.787_off.tiq	34900	1.89	1.82
Entry  Wed May 19 19:47:14 2021, Yuri, General, Beam Halflife at 30 AMeV, 2021 2021-05-19_17-35-00_tcl1032_lassie-monitor.png
 
Entry  Tue May 25 17:12:59 2021, Robert/Shahab, Accelerator, Beam, 2021 
Beam is back; It is now being optimized
Entry  Mon Mar 23 14:23:01 2020, Pierre-Michel, DAQ, Backup recoil files,  
Recoil detector files backup to lxg1260:/data.local2/hillenbrand/Laszlo
Entry  Wed Feb 6 10:04:23 2019, Laszlo Varga, Simulations, Background subtraction for 124Xe, 109In, 73As made by MOCADI,  template.pdf

General remarks to the MOCADI simulations:

  1. scraper size vertically > (p,g) spot at the scraping position --> (p,g) can be separated by truncating the backscattered Rutherford events in the energy.

  2. replacing the atomic masses to nuclear masses does not change significantly the absolute positions of the (p,g) and the Rutherford. However, the (p,g) spot in the simulation seems bigger using the nuclear masses, than in the 124Xe experiment with a factor ~1.6.

  3. going for lighter elements, the separation between (p,g) and Rutherford getting better, than slit can be placed even more far from the beam in x (radial) direction. For 124Xe the minimal distance from the beam axis is <4cm, for 73As it is <7.5cm.

  4. in the simulations the scraping is mostly until x=-inf. However, if the scraping is incomplete in x, we can end up with underlying background events below the p,g peak (see the last slides)! The Rutherford cone gets bigger by going down with A,Z. For 91Nb the minimal width of the scraper: x>6cm, for 73As x>7cm. Therefore, I suggest to have a scraper width x=9cm. For the y, y=6cm should be safe.

  5. for lighter elements, the (p,g) spot size increases: in the simulation for 73As it reaches the detector size. However, the (p,g) spot size might be overestimated, please read the 2. point.
Entry  Fri Mar 20 22:26:42 2020, Jan, Detectors, BaF2 deactivated,  
BaF2 detectors are deactivated nor for the following runs.
Entry  Tue Feb 11 13:20:01 2020, Jan, Detectors, BaF2 - HV settings,  BaF2_HV_settings.pngbaf_bg_ch1.png
with these HV values the 6 channels are roughly gain matched, such that the 7.83 MeV Po-decay is around channel 5000.
Entry  Fri Mar 20 16:54:53 2020, Jan, DAQ, BaF 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.
Entry  Wed Mar 31 13:52:04 2021, Jan, Detectors, BaF Na22 Testing, 2021 
On 30. and 31.03.2021 we did some testing with the 6 BaF detectors.

Trigger & threshold:
With a threshold at ~250 keV, each detector has an trigger rate of about 0.5kHz due to internal activity.

Energy spectra
All detectors showed the Na22 lines (511 + 1275 keV) and also the lines from internal activity.
The energy resolution was on the order of 8.5 - 11 keV, depending on the detector.

Time spectra
Raw TDC spectra showed self-stop peak.
TDC diff spectra (between detectors) show one main (sharp) correlation peak about 8ns = 30ch*0.293ns/ch off the zero. 
At very low intensity a time structure around this peak is visible in a region of 120ns around the main peak. This is not understood, the energy spectra look similar for all these time regions (above/on/below the main peak).
Additionally, the coincidence E-specta between detector 1 and 2 (gating on the main time peak), nicely showed only the 511 keV line from Na22 and some gras.

Overnight test run:
Det. 1, 2, 3, 4 with the Na22 source

lxg1275:/data.local3/e127/lmd_2021/test/
e127b_run0021.lmd
e127b_run0022.lmd
e127b_run0023.lmd
e127b_run0024.lmd
e127b_run0025.lmd
e127b_run0026.lmd
e127b_run0027.lmd
e127b_run0028.lmd
e127b_run0029.lmd
e127b_run0030.lmd
e127b_run0031.lmd
e127b_run0032.lmd
e127b_run0033.lmd
e127b_run0034.lmd

Gain matched HV settings: https://elog.gsi.de/esr/E127/289

Issues to solve:
- 2 missing HV channels
- Go4 Analysis not stable
- trigger not on Baf but on Si
Entry  Wed Mar 31 13:57:27 2021, Jan, Detectors, BaF HV settings, 2021 
The setting below is a start value for final gain matching with a full ADC range of 12MeV:

Det.Nr. ADC/TDC ch HV MSCF Gain
1 20 2400V 6
2 21 1780V 6
3 22 2350V 6
4 23 2130V 6
5 24 2050V 6
6 25 1780V 6
Entry  Wed Apr 14 09:42:50 2021, Jan, Detectors, BaF HV gain matching, 2021 BaF_Na22_gain_match_v1.pngbaf_gain_match_v1.dat
The preliminary gain matching settings for a full ADC range of ~12MeV:

Det.Nr. ADC/TDC ch HV I comment
1 20 2400V 390uA CAEN HV ch0
2 21 1763V 287uA CAEN HV ch1
3 22 2340V 380uA CAEN HV ch2
4 23 2175V 354uA CAEN HV ch3
5 24 2017.5V ? emetron HV
6 25 1780V ? not yet biased


Attached is a 22Na-spectrum taken with detectors 1 - 5.
The used MSCF settings are also attached.

Detector 6 does not yet have a HV channel available.
Entry  Fri May 28 14:14:31 2021, Laszlo, General, Alvarez failure at 10:30 28:05:2021, 2021 
 
Entry  Sun May 23 15:36:10 2021, Rui-Jiu Chen& Alex, General, All shifts until Monday morning (24th May) have been cancelled. , 2021 
All shifts until Monday morning (24th May) have been cancelled. 
Next update on further situation (in particular concerning the morning shift on Monday) will be given tonight .
Entry  Sun Mar 22 13:33:19 2020, Laszlo, General, 2nd storage of MCP data,  
I made a backup for the MCP data on my own GSI laptop. Looking for better solution...
the original "fresh" files stored at litv-exp@lxg1299:/data.local2/hillenbrand/Laszlo/
Entry  Mon Apr 6 04:39:19 2020, Laszlo, Calibration, 2. Xray energy calibration,  9x
30angle:  E[keV] = 0.015898 *ch-1.91
90angle:  E[keV] = 0.0211075*ch-2.39
145angle: E[keV] = 0.01663  *ch-1.758
ELOG V3.1.5-fc6679b