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  proton-capture on 118Te, Page 23 of 29  Not logged in ELOG logo
ID Date Authordown Category Subject Year
  9   Fri Jun 7 13:52:32 2019 JanRunsprerun002 - MixedAlpha 
save point: lxg1275:/datalocal1/e127/predata/prerun002

~20min run

DAQ setup:
32 ADC channels
 ch. 1-16 (section 0) >> y-strips
 ch. 17-32 (section1) >> x-strips
32 TDC channels
 ch. 1-16 (section 0) >> y-strips
 ch. 17-32 (section1) >> x-strips
32 scaler channles 
 (not used)

Detector setup:
bias -90V
MixedAlpha source in upper left corner
Attachment 1: alpha_top_left.jpg
alpha_top_left.jpg
  10   Fri Jun 7 14:28:09 2019 JanRunsprerun003 - MixedAlpha 
save point: lxg1275:/datalocal1/e127/predata/prerun003

~20min run

DAQ setup:
32 ADC channels
 ch. 1-16 (section 0) >> y-strips
 ch. 17-32 (section1) >> x-strips
32 TDC channels
 ch. 1-16 (section 0) >> y-strips
 ch. 17-32 (section1) >> x-strips
32 scaler channles 
 (not used)

Detector setup:
bias -90V
MixedAlpha source in lower right corner
Attachment 1: alpha_bottom_right.jpg
alpha_bottom_right.jpg
  11   Fri Jun 7 14:39:36 2019 JanDetectorsPt100 installation & readout 
The new detector holder incorporates a Pt100 temperature sensor, which is UHV compatible. The Pt-resistor is read out via 4 wires. These wires are integrated into the D-SUB connector of the detector. The new wires use the pins as shown in the attached picture
"det_connector.png".

Additionally, a new cable for air-sided connection to the feedthrough is made. This one has an additional outgoing branch for the 4-wire Pt-100 readout, which can be connected to the readout device.

The readout device is an Omega DP32Pt, which provides pre-calibrated conversion to temperature values for many sensor types.
https://www.omega.de/temperature/pdf/DPPT_SERIES.pdf
https://assets.omega.com/manuals/M5460_DE.pdf
https://data2.manualslib.com/pdf6/133/13210/1320926-omega/cn32pt.pdf?0f771b894ebb783ac172a013ea140d1d
Attachment 1: det_connector.png
det_connector.png
Attachment 2: Pt100_readout.JPG
Pt100_readout.JPG
  12   Fri Jun 7 15:57:41 2019 JanDAQDAQ with & without MDPP-16 
The DAQ located in 

../esrdaq_2018/r4l-58/ 
currently includes the readout of
MADC
Caen 775 TDC
Caen 830 Scaler
MDPP-16

../esrdaq_2018/r4l-58_rewind/
is without the MDPP-16:
MADC
Caen 775 TDC
Caen 830 Scaler
  13   Tue Jun 11 10:13:56 2019 JanRunsprerun003 - MixedAlpha 
save point: lxg1275:/datalocal1/e127/predata/prerun004
~10min run

DAQ setup:
32 ADC channels
 ch. 1-16 (section 0) >> y-strips
 ch. 17-32 (section1) >> x-strips
32 TDC channels
 ch. 1-16 (section 0) >> y-strips
 ch. 17-32 (section1) >> x-strips
32 scaler channles 
 (not used)

Detector setup:
bias -90V
MixedAlpha source in center
new air-side cable used (with temp. sensor)
  Draft   Fri Jun 28 14:06:28 2019 JanGeneralCAD of (p,g) setup 
  21   Thu Aug 29 10:02:22 2019 JanDetectorsbakeout at ESR setup 
The bakeout for our detector setup has started on the evening of 27.08.2019 
We have a temperature sensor in the vacuum next to the detector.
The goal is to maximize bakeout temperature, while not going above 125°C at the detector/sensor.

Here is a daily protocol of temperatures and vacuum pressure
T_12 is the set value of the 1st and 2nd controller device
T_34 is the set value of the 3rd and 4th controller device 
T_56 is the set value of the 5th and 6th controller device
T_sens is the temperature measured by the sensor close to the detector

day   date        P_setup    T_sens  T_12   T_34   T_56   comment
1     tue 28.08.  1e-6 mbar  ~100°   ~120°  ~120°  ~120°  carefull start
2     wed 29.08.  3e-7 mbar  ~121°   ~180°  ~150°  ~150°  T_sens reached ~126° during NEG-pump conditioning
3     thu 30.08.  6e-7 mbar  ~124°   ~185   ~150°  ~175°  readjusted T_56, outgassing a bit increased
7     mon 02.09.  5e-9 mbar   ~80°                        during cooldown
9     wed 04.09.  2e-10mbar   ~30°                        after cooldown, NexTorr Pump active     
Attachment 1: T_set_bakeout.png
T_set_bakeout.png
  24   Wed Oct 23 11:40:29 2019 JanRunsprerun005 - MixedAlpha 
save point: lxg1275:/datalocal1/e127/predata/prerun005

start: 23.10.19 - 11:40 
stopp: 23.10.19 - ~13:30

DAQ setup:
32 ADC channels
 ch. 1-16 (section 0) >> x-strips
 ch. 17-32 (section1) >> y-strips
32 TDC channels
 ch. 1-16 (section 0) >> x-strips
 ch. 17-32 (section1) >> y-strips
32 scaler channels 
 (not used)

Detector setup:
bias -30V
MixedAlpha source in center
  26   Wed Oct 23 15:35:29 2019 JanDAQDAQ with & without MDPP-16 
the DAQ located in
../esrdaq_2018/r4l-58_dev/

currently includes
2x MADC
2x Caen V775 TDC
2x Caen V830 Scaler




> The DAQ located in 
> 
> ../esrdaq_2018/r4l-58/ 
> currently includes the readout of
> MADC
> Caen 775 TDC
> Caen 830 Scaler
> MDPP-16
> 
> ../esrdaq_2018/r4l-58_rewind/
> is without the MDPP-16:
> MADC
> Caen 775 TDC
> Caen 830 Scaler
  27   Fri Oct 25 16:34:51 2019 JanRunsprerun007 - MixedAlpha 
save point: lxg1275:/datalocal1/e127/predata/prerun007

start: Fr 25.10.19 - 16:35 
stopp: 

DAQ setup:
64 ADC channels
 ch. 01-64 (ADC0) >> empty
 ch. 33-48 (ADC1 - section0) >> x-strips
 ch. 49-64 (ADC1 - section1) >> y-strips
32 TDC channels
 ch. 01-64 (TDC0) >> empty
 ch. 33-48 (TDC1 - section0) >> x-strips
 ch. 49-64 (TDC1 - section1) >> y-strips
64 scaler channels 
 (not used)

Detector setup:
bias -30V
MixedAlpha source in center
  32   Tue Feb 11 13:20:01 2020 JanDetectorsBaF2 - HV settings 
with these HV values the 6 channels are roughly gain matched, such that the 7.83 MeV Po-decay is around channel 5000.
Attachment 1: BaF2_HV_settings.png
BaF2_HV_settings.png
Attachment 2: baf_bg_ch1.png
baf_bg_ch1.png
  33   Mon Feb 17 08:14:44 2020 JanSimulations118Te K-REC X-ray energies 
X-ray energies of K-REC for 118Te according to
http://www-ap.gsi.de/Thomas/ap_html_research/energy/index.php

parameters 35 deg 90 deg 145 deg
8 MeV/u 47.29 keV 42.25 keV 38.17 keV
5 MeV/u 44.51 keV 40.74 keV 37.57 keV


Full results are attached
Attachment 1: Photonen_Kammer.png
Photonen_Kammer.png
Attachment 2: x-ray_calculator.txt
		
##################
8 MeV/U - 90 deg

******************* KINEMATICS ******              *****************

 ZPROJ..........................:=  52.
 THETA..........................:=  90.
 EKIN(MeV/U)....................:=  8.
 KINETIC ELECTRON ENERGY (keV)..:=  4.38864217
 V (A.U.).......................:=  17.8451164
 BETA...........................:=  0.130222112
 GAMMA..........................:=  1.00858828
 DOPPLER SHIFT..................:=  0.991491303
 SOLID ANGLE TR LAB/CM..........:=  0.983055003
 EMISSION ANGLE IN EMITTER-FRAME:=  97.4826901

 ******************* ENERGIES IN KEV ******         ************

 ETA...(v/Zp)^2.................:=  0.117769298
 ETA..(ENERGY)..................:=  0.114827573
 EK(BIND).......................:=  38.2193878
 EL(BIND).......................:=  9.28182715
 EM(BIND).......................:=  4.10427342
 K-ALPHA (LAB.).................:=  28.6913397
 K-BETA  (LAB.).................:=  33.8248391
 L-ALPHA (LAB.).................:=  5.13349949
 KINETIC ELEC. ENERGY (LAB.)....:=  4.35130054
 E K-REC (LAB)..................:=  42.2454911
 E L-REC (LAB)..................:=  13.5541514
 E M-REC (LAB)..................:=  8.42065194
 		
##################
 8 MeV/U - 35 deg
 
 ******************* KINEMATICS ******              *****************

 ZPROJ..........................:=  52.
 THETA..........................:=  35.
 EKIN(MeV/U)....................:=  8.
 KINETIC ELECTRON ENERGY (keV)..:=  4.38864217
 V (A.U.).......................:=  17.8451164
 BETA...........................:=  0.130222112
 GAMMA..........................:=  1.00858828
 DOPPLER SHIFT..................:=  1.10987917
 SOLID ANGLE TR LAB/CM..........:=  1.23183176
 EMISSION ANGLE IN EMITTER-FRAME:=  39.5387398

 ******************* ENERGIES IN KEV ******         ************

 ETA...(v/Zp)^2.................:=  0.117769298
 ETA..(ENERGY)..................:=  0.114827573
 EK(BIND).......................:=  38.2193878
 EL(BIND).......................:=  9.28182715
 EM(BIND).......................:=  4.10427342
 K-ALPHA (LAB.).................:=  32.1171956
 K-BETA  (LAB.).................:=  37.8636547
 L-ALPHA (LAB.).................:=  5.74645901
 KINETIC ELEC. ENERGY (LAB.)....:=  4.87086251
 E K-REC (LAB)..................:=  47.2897647
 E L-REC (LAB)..................:=  15.1725691
 E M-REC (LAB)..................:=  9.42611007
 		
##################
 8 MeV/U - 145 deg
 
 ******************* KINEMATICS ******              *****************

 ZPROJ..........................:=  52.
 THETA..........................:=  145.
 EKIN(MeV/U)....................:=  8.
 KINETIC ELECTRON ENERGY (keV)..:=  4.38864217
 V (A.U.).......................:=  17.8451164
 BETA...........................:=  0.130222112
 GAMMA..........................:=  1.00858828
 DOPPLER SHIFT..................:=  0.895920831
 SOLID ANGLE TR LAB/CM..........:=  0.802674136
 EMISSION ANGLE IN EMITTER-FRAME:=  149.078236

 ******************* ENERGIES IN KEV ******         ************

 ETA...(v/Zp)^2.................:=  0.117769298
 ETA..(ENERGY)..................:=  0.114827573
 EK(BIND).......................:=  38.2193878
 EL(BIND).......................:=  9.28182715
 EM(BIND).......................:=  4.10427342
 K-ALPHA (LAB.).................:=  25.9257634
 K-BETA  (LAB.).................:=  30.5644416
 L-ALPHA (LAB.).................:=  4.63867824
 KINETIC ELEC. ENERGY (LAB.)....:=  3.93187594
 E K-REC (LAB)..................:=  38.1734216
 E L-REC (LAB)..................:=  12.2476582
 E M-REC (LAB)..................:=  7.60898
 		
##################
 5 MeV/U - 90 deg
 
 ******************* KINEMATICS ******              *****************

 ZPROJ..........................:=  52.
 THETA..........................:=  90.
 EKIN(MeV/U)....................:=  5.
 KINETIC ELECTRON ENERGY (keV)..:=  2.74290135
 V (A.U.).......................:=  14.1416452
 BETA...........................:=  0.103196576
 GAMMA..........................:=  1.00536768
 DOPPLER SHIFT..................:=  0.994666113
 SOLID ANGLE TR LAB/CM..........:=  0.989360677
 EMISSION ANGLE IN EMITTER-FRAME:=  95.9234773

 ******************* ENERGIES IN KEV ******         ************

 ETA...(v/Zp)^2.................:=  0.0739593675
 ETA..(ENERGY)..................:=  0.0717672332
 EK(BIND).......................:=  38.2193878
 EL(BIND).......................:=  9.28182715
 EM(BIND).......................:=  4.10427342
 K-ALPHA (LAB.).................:=  28.7832109
 K-BETA  (LAB.).................:=  33.9331482
 L-ALPHA (LAB.).................:=  5.14993724
 KINETIC ELEC. ENERGY (LAB.)....:=  2.72827103
 E K-REC (LAB)..................:=  40.7438009
 E L-REC (LAB)..................:=  11.96059
 E M-REC (LAB)..................:=  6.81065272
		
################## 
 5 MeV/U - 35 deg
 
 ******************* KINEMATICS ******              *****************

 ZPROJ..........................:=  52.
 THETA..........................:=  35.
 EKIN(MeV/U)....................:=  5.
 KINETIC ELECTRON ENERGY (keV)..:=  2.74290135
 V (A.U.).......................:=  14.1416452
 BETA...........................:=  0.103196576
 GAMMA..........................:=  1.00536768
 DOPPLER SHIFT..................:=  1.08650883
 SOLID ANGLE TR LAB/CM..........:=  1.18050143
 EMISSION ANGLE IN EMITTER-FRAME:=  38.5498499

 ******************* ENERGIES IN KEV ******         ************

 ETA...(v/Zp)^2.................:=  0.0739593675
 ETA..(ENERGY)..................:=  0.0717672332
 EK(BIND).......................:=  38.2193878
 EL(BIND).......................:=  9.28182715
 EM(BIND).......................:=  4.10427342
 K-ALPHA (LAB.).................:=  31.440915
 K-BETA  (LAB.).................:=  37.0663729
 L-ALPHA (LAB.).................:=  5.62545782
 KINETIC ELEC. ENERGY (LAB.)....:=  2.98018653
 E K-REC (LAB)..................:=  44.5058887
 E L-REC (LAB)..................:=  13.0649737
 E M-REC (LAB)..................:=  7.43951584
		
##################
5 MeV/U - 145 deg

******************* KINEMATICS ******              *****************

 ZPROJ..........................:=  52.
 THETA..........................:=  145.
 EKIN(MeV/U)....................:=  5.
 KINETIC ELECTRON ENERGY (keV)..:=  2.74290135
 V (A.U.).......................:=  14.1416452
 BETA...........................:=  0.103196576
 GAMMA..........................:=  1.00536768
 DOPPLER SHIFT..................:=  0.917136431
 SOLID ANGLE TR LAB/CM..........:=  0.841139233
 EMISSION ANGLE IN EMITTER-FRAME:=  148.261832

 ******************* ENERGIES IN KEV ******         ************

 ETA...(v/Zp)^2.................:=  0.0739593675
 ETA..(ENERGY)..................:=  0.0717672332
 EK(BIND).......................:=  38.2193878
 EL(BIND).......................:=  9.28182715
 EM(BIND).......................:=  4.10427342
 K-ALPHA (LAB.).................:=  26.5396911
 K-BETA  (LAB.).................:=  31.2882142
 L-ALPHA (LAB.).................:=  4.74852314
 KINETIC ELEC. ENERGY (LAB.)....:=  2.51561476
 E K-REC (LAB)..................:=  37.5680076
 E L-REC (LAB)..................:=  11.0283166
 E M-REC (LAB)..................:=  6.27979344
				
		
		
  36   Fri Feb 21 11:29:59 2020 JanDetectorsdet. distances at target chamber 
This is the lookup table for the distance of each x-ray detector to the target.
See attched foto for explanation.

Detector A (dA) [mm] B (dB) [mm] C (dC) [mm] calculate result [mm]
35° 136.0 (1.0) 20.0 (0.2) 450.0 (0.5) C + B - A 334.0 (?)
90° 76.0 (0.5) 20.0 (0.2) 447.0/2 = 223.5 (1.0) C + B - A 167.5 (?)
145° 165.0 (1.0) 20.0 (0.2) 450.0 (0.5) C + B - A 305.0 (?)

Errors are estimated after measurement, final errorbars have to be double checked!
Attachment 1: Photonen_Kammer.png
Photonen_Kammer.png
  37   Tue Mar 10 08:52:34 2020 JanDetectorsDSSSD positioning 
To find a good Si position, we need to follow a procedure similar to this:

1. Si in max-in position
2. find distance of beam by scraping with detector from inside 
--> zero position
3. from this zero, we need to set a distance of about 1.5 cm to the inside (as shown in the sketch below)

It is likely that this position is not compatible with the complete ESR cycle (e.g. we scrape beam with det. during deceleration).
The solution is to move the beam closer to the detector after deceleration. There are two feasible methods to do this:

A. make a local bump in the dipole
--> check new zero and det. position again, as sketched above
--> in 2016 this method didn't allow to go close enough to the detector, eventually we used:

B. global orbit change (by magnet ramp) + target bump (to keep overlap)
--> this takes a bit more time to set up and also the cycle will be longer at low energies (critical due to life-time)
--> method A is preferred, but might not be strong enough

This needs to be checked and repeated for each new beam setting.
Attachment 1: optimum_detector_position_2.jpg
optimum_detector_position_2.jpg
  38   Tue Mar 10 09:41:26 2020 JanDetectorsx-ray background from BaF 
The BaF2 detectors planned to be installed at the target induce an additional background in the x-ray detectors sitting below inside the target chamber. 
We made test measurements with an x-ray detector for estimating the background in the region of interest for our K-REC measurements (35 to 50 keV).

For the interval [35-50 keV]:
Normal background level: 0.065 (s*keV)^-1
BaF2 in 5cm distance:    0.078 (s*keV)^-1
This is an increase by about 22%

Assuming an increase by 100% induced by 6 BaF2 in the vincinity of the Ge-detectors this seems acceptable.

However additional BaF-induced peaks are also visible at ~30 keV and ~60 keV. While these are not in the region of interest for the K-REC, we need to be aware of them!

spectra are available on the Frankfurt exp-astro Server at /home/glorius/e127/
  39   Wed Mar 11 09:08:21 2020 JanDAQDAQ & controls - OVERVIEW 
For all DAQ & slow control buissines the user
litv-exp
is used with the password ViValasVegas1964

Here is a list of computers and devices we use for the current DAQ:
  • r4l-58 - VME cpu (RIO)
    our DAQ runs on this computer
    access from lxg1275 via ssh litv-exp@r4l-58
    the current DAQ directory is /esr/usr/litv-exp/2020_e127/r4l-58
    from lxg-machines the DAQ dir can also be accessed via the mount point at /lynx/Lynx/esr/usr/litv-exp/2020_e127/r4l-58

  • lxg1275 - main DAQ handler
    used for communication with the DAQ and primary data writing/streaming
    access from any lxg via ssh litv-exp@lxg1275
    primary data folder: /data.local3/e127/lmd/
    local backup folder: /data.local2/e127/lmd_backup/

  • lxg1299 - online monitoring
    used for the R3Broot online monitor server
    access from any lxg via ssh litv-exp@lxg1299
    online data: /data.local3/e127/online/

  • atpnu004 - slow control
    used for remote access to SpecAmps (MesyTec Shapers), Si-HV (caen) and picoscopes
    access from any lxg via E127_nuc or ssh litv-exp@atpnuc004
    screen sessions: mesy_ioc (shapers), caen_ioc (Si HV)
    access screens by screen -x mesy_ioc or screen -x caen_ioc (exit with [Ctrl-a d])
    access vnc session for picoscopes on any lxg: E127_vnc or vncviewer atpnuc004:1

  • apraspi001 - slow control 2
    used for remote access to the BaF HV crate
    access from any lxg via ssh litv-exp@apraspi001
    local access to HV control by telnet: telnet 169.254.93.160 1527

  • lxg0188 - 1st backup node
    used for direct backup of the written data (invoked automatically by stopping a run)
    backup dir: /data.local2/E127_lmd/

  • kronos.hpc.gsi.de - 2nd backup node
    used for secondary backup of lmd-data on lxg0188 (chronjob every 4 hours)
    backup dir: /lustre/ap/litv-exp/2020-03-17_E127_jglorius

List of commands and aliases

  • E127_daq or /data.local1/e127/scripts/E127_start_gui.sh
    this is the GUI to control the DAQ
    available on lxg1275 only with litv-exp user
    only one instance of this GUI can run at the same time!

  • E127_unpack or /u/litv-exp/unpacker/unpackexps/e127/e127
    this is the unpacker for the current DAQ
    available on any lxg with litv-exp user
    to unpack lmd-files to root-file: E127_unpack infile01.lmd infile02.lmd --ntuple=RAW,outfile.root

  • E127_epics or epicsfind; medm -x /u/litv-exp/e127/medm/e127.adl
    this is the GUI for slow control of Si HV and amplifiers (MesyTec Shapers)
    available on any lxg with litv-exp user

  • E127_rates or /u/litv-exp/e127/UDP/build_cc_x86_64-linux-gnu_4.9.2_debug/udp_reader --trig --rate
    this is the UDP reader for detector and trigger rates
    available on lxg1275 only with litv-exp user





  41   Sun Mar 15 09:42:40 2020 JanCalibrationrun030 - Xray90 calib Am241 
measurement with old tennelec specAmps, do not use for efficiency!

Detector: 90
Source: Am-241
Distance: 167.5mm
Start time: 13:06:55 15.03.2020
Stop time:  13:24:57 15.03.2020

file name: run030_xxxx.lmd
avrg. rate: 650Hz
dead-time:  7%
  42   Sun Mar 15 13:08:38 2020 JanCalibrationrun031 - Xray90 calib Ba133 hi-rate 
measurement with old tennelec specAmps, do not use for efficiency!

Detector: 90
Source: Ba-133 strong source
Distance: 167.5mm
Start time: 13:28:42 15.03.2020
Stop time:13:38:16 15.03.2020

file name: run031_xxxx.lmd
avrg. rate: 2.7kHz
dead-time:  25%
  43   Sun Mar 15 13:40:11 2020 JanCalibrationrun032 - Xray90 calib Ba133 
measurement with old tennelec specAmps, do not use for efficiency!

Detector: 90
Source: Ba-133 weak source
Distance: 167.5mm
Start time: 13:39:30 15.03.2020
Stop time: 13:50:55 15.03.2020

file name: run032_xxxx.lmd
avrg. rate: 150Hz
dead-time:  1.5%
  44   Sun Mar 15 13:52:05 2020 JanCalibrationrun033 - Xray145 calib Am241 
measurement with old tennelec specAmps, do not use for efficiency!

Detector: 145
Source: Am-241
Distance: 305mm
Start time: 14:15;56 15.03.2020
Stop time:  14:40:21 15.03.2020

file name: run033_xxxx.lmd
avrg. rate: 300Hz
dead-time:  4%
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