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| time slot | staff |
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shift 1 | 6pm-1am | Kaz, Philip, Xavier, Conny, Julian. |
shift 2 | 11pm-6am | Bhavna, Dionisio, Conny (as needed), Gabriel. |
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shift 1 | 6pm-1am | Dionisio, Kaz, Conny, Philip, Gabriel. |
shift 2 | 11pm-6am | Conny, Bhavna, Xavier. |
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shift 1 | 6pm-1am | Conny, Dionisio, Bhavna (remote, only there until 22:00hrs), Xavier, Gabriel. |
shift 2 | 11pm-6am | Conny (as needed), Kaz, Philip. |
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Fig. Temp. Setup with small 10k's (ff and sf). Wave-8 diodes not mounted.
Fig. Final setup for the small 10k's. In picture, NG and FF cameras.
Measurement plan:
15 July 2023(?):
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Complete calibration of the small ePix10k's (from, side, NG). Make sure we use dropped shots.
Beamtime plan:
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File containing the run number descriptions:
Loggbok location:
/sdf/home/n/nakahara/analysis/detectors/IH/epix10k_mfxx10050_20230715
night 1 - notes
night 2 - notes2 + loggbook
night 3 - loggbook.
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Notes and observations from the beamtime and subsequent data analysis:
commands in hutch python:
get to hutch python from mfx-daq by typing mfx3. Commands of interest:
att(x) - sets the transmission to x. so x=0.20 gives 20% transmission;
lcls.bykik_get_period() - gets the drop period. So if you get 137, it drops every 137 shot
lcls.bykik_set_period(x) - drops every xth event (x=137 drops every 137 event, x=2 drops every second event)
Gain configuration settings:
Table A1. Tr_bit and pixel config file combinations required to get specific gain mode for the ePix10 small.
Gain mode | Tr_bit value | Pixel config file |
FH | 1 | 12 (mode_12.txt - yellow) |
FM | 0 | 12 (mode_12.txt - yellow) |
FL | Does not matter | 8 (mode_8.txt - brown) |
AHL | 1 | 0 (mode_0.txt - red) |
AML | 0 | 0 (mode_0.txt - red) |
AHL-L | 1 | 4 (mode_4.txt - salmon) |
AML-L | 0 | 4 (mode_4.txt - salmon) |
Folder structure:
cd /sdf/data/lcls/ds/mfx/mfxx1005021/results
(ana-4.0.48-py3) ls
lowFlux philiph scan scripts
The idea is to put scripts under scripts and scan or lowFlux ntuples/.npy files etc under scan or lowFlux. This is how I had things set up on the old psana.
To copy the files to another experiment (from mfxx1005021 to xcsc00120), then use:
cp -rp /sdf/data/lcls/ds/mfx/mfxx1005021/results/scripts /sdf/data/lcls/ds/xcs/xcsc00121/results/scripts
cp -rp /sdf/data/lcls/ds/mfx/mfxx1005021/results/scripts /sdf/data/lcls/ds/xcs/xcsc00121/results/scan
cp -rp /sdf/data/lcls/ds/mfx/mfxx1005021/results/scripts /sdf/data/lcls/ds/xcs/xcsc00121/results/lowFlux
however, you will lijkely not want to copy all the files in scan and lowFlux, so it might be easier to just create them in the folder for the new experiment.
Instructions to run the DAQ scripts and analysis:
Script description, please see: Script descriptions
Attenuator scans:
DAQ scans:
- intensity scan that produces multiple files:
Leland has written a new attenuator scan script for us. To use this, go on mfx-daq and:
- if in mfx-monitor, then ssh mfx-daq
- Start Start mfx hutch python by typing "mfx3"
- import numpy as np
- scan_list = [1,0.66,0.33,0.1,0.05] (i.e 100%, 66%, 33%, 10%, 5%)
- x.attenuator_scan(events=240,record=True,config=False,transmissions=scan_list)
to just manually change the attenuation, write att(20) in the hutch python.
The DAQ needs to be in the configured state before running this script.
2. intensity scan that produces a single file:
x.attenuator_single_scan(events=12000,record=True,transmissions=[1.0,0.8, 0.61,0.4,0.2,0.1,0.05,0.01])
1.0,0.8, 0.61,0.4,0.2,0.1,0.05,0.01 are the transmissions with 1.0 having no attenuation, and 0.01 being 1% transmission.
Analysis script:
??????
Timing scans:
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One can run e.g. python persistenceCheck.py -r 272 -d Epix10ka2M --maxNevents 450000 with the usual base class to analyze persistence. The script stores the mean and flux of kicked events and the immediately preceding events and also makes a dumb plot.
Check the detector configurations.:
(ana-4.0.48-py3) /sdf/group/lcls/ds/daq/current/build/pdsapp/bin/x86_64-rhel7-opt/configdb_readxtc -e ./xtc/
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Updated default run for intensity scans:
Results:
Link to analysis plan:
Beamtime run notes (Bhavna):
https://docs.google.com/document/d/1eYhR0q_LjSd4DGc9OnYuBl2aFFucNxmGOBq_E0NMT5g/edit
Analysis plan (Bhavna):
https://docs.google.com/spreadsheets/d/10m2vQLeCrlIA53khhRLaTRqm4YGobh0RGqGaE3A_WL8/edit
Primary finding for smalls: the detector is marginally timed in, which is causing the low values after switching. The delay, ACQToAsicR0delay, should be shifted from 18223 to 17223.
Google Drive folder for presentations with results etc.:
https://drive.google.com/drive/u/1/folders/1oolbkUqPAMD76qWZYiGQvVKIQPCqUfBS
Initial simulations of effects for getting the timing wrong. (Conny)
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Overview of initial findings. (Conny)
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Register settings for the various cameras for easy access. (Conny)
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Small study of the double population. (Xavier)
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Timing in an ePix detector with LCLS timing system - VB (Dionisio)
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Double population (Xavier)
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