Difference between revisions of "Feb runplan"
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| − | + | <blockquote>E08-027/E08-007 Commissioning Runplan | |
| + | </blockquote> | ||
| + | |||
| + | == Task I : Beamline Commissioning (Y. Roblin) == | ||
| + | |||
| + | Initial Beam Accelerator Ops, with assistance from the Hall A shift crew. This includes delivery of beam to the dump, commissioning of the BPMs, calibration with the Harp and power up of the rasters. | ||
| + | |||
| + | Full Details for ONLY straight-through beam delivery are provided at: | ||
| + | *[http://opsweb.acc.jlab.org/CSUEApps/atlis/task/12015 Initial straight-through beam delivery ] | ||
| + | |||
| + | <U>Start-up configuration</U> | ||
| + | |||
| + | # Two pass beam, E0 =2.2 GeV, polarized, no raster. | ||
| + | # Current: Initially pulsed up to 2-4<math>\mu</math>A pulsed, then up to 5 <math>\mu</math>A CW. | ||
| + | # Spectrometers at 12.5 degrees, <math>P_0=??</math> MeV (carbon elastic). | ||
| + | # Sieve slits : OUT. | ||
| + | # Septa settings: 5.69 degrees. | ||
| + | # Compton chicane: OFF. | ||
| + | # Polarized Target chicane : OFF and degaussed. | ||
| + | # Tungsten Calorimeter : Retracted. | ||
| + | # Polarized Target: Field OFF | ||
| + | |||
| + | |||
| + | == Task II : Moller Commissioning (1 shift) == | ||
| + | |||
| + | (Resp: O. Glamazdin, J. Zhang) | ||
| + | |||
| + | # Detector HV tuning (30min) | ||
| + | # Q1 and Q2 quadruple magnets scan (1hour) | ||
| + | # Moller target longitudinal scan (30 min) | ||
| + | # Beam polarization measurement (30-40min) | ||
| + | # MCC job (to set Moller settings and to restore previous beam parameters) (~2hours) | ||
| + | |||
| + | Total: 5 hours. | ||
| + | |||
| + | == Task III: Compton Test (2 shifts) == | ||
| + | |||
| + | (Resp: Sirish et al.) | ||
| + | |||
| + | |||
| + | == Task IV: HRS/Detector Checkout == | ||
| + | |||
| + | (Resp: g2p students) | ||
| + | |||
| + | Most of these check-out can be done during the initial beamline commissioning(see above) | ||
| + | |||
| + | <U> HRS and Septum Magnet Checks</U> (Min, Jixie?) | ||
| + | |||
| + | # Cycle magnets | ||
| + | # Septum field vs current, checks with carbon elastic peaks | ||
| + | |||
| + | <U> HRS Detectors Check-out </U> (Melissa, Ryan, Vince) | ||
| + | |||
| + | # Check all the detectors in both arm to establish that we don't have problems. | ||
| + | # Post ALL the online plots for the detectors (ADC, TDC etc..) in the Halog | ||
| + | ## VDC (efficiencies etc..) | ||
| + | ## Gas Cerenkov (ADC and timing peaks) | ||
| + | ## S1 and S2m (ADC and timing peaks) | ||
| + | ## Lead-glass Calorimeter (ADC) | ||
| + | # Check HV on all the detectors, align the peaks if necessary | ||
| + | |||
| + | <U> DAQ/Trigger Check-out</U> (Melissa, Ryan, Vince) | ||
| + | |||
| + | # Establish the DAQ conditions for production | ||
| + | ## What is the max rate DAQ can run with < 20% DT (Buffered and unbuffered mode) ? | ||
| + | ## Record deadtime as a function of DAQ rate. Change rate via current or prescalers. | ||
| + | ## Check synchronization of ROCs in buffered mode | ||
| + | ## Make sure all important scaler channels are working (BCM, Helicity, triggers, L1A, clock) | ||
| + | ## Check scalers in S1 and S2m detectors for double pulsing | ||
| + | |||
| + | <U> Third Arm Detector Check-out</U> (Chao, Kalyan) | ||
| + | |||
| + | # Set thresholds for 2.2 GeV beam | ||
| + | # Check for bad channels, double peaks etc .. | ||
| + | # Check deadtime, helicity, BCM scalers | ||
| + | |||
| + | <U> Beam Diagnostics Check-out</U> ( Pengjia, Alexandre, Kalyan) | ||
| + | # Check BPM, slow and fast raster signals in the data | ||
| + | # Is spot++ working for both arms? | ||
| + | # BPM commissioning plan by Pengjia [http://hallaweb.jlab.org/experiment/g2p/collaborators/kalyan/Beam_Position_Reconstruction_for_g2p.pdf here] | ||
| + | # Check BCM signals in the scalers | ||
| + | # BCM calibration? | ||
| + | |||
| + | |||
| + | <U> Helicity Checks</U> (Chao, Pengjia, Kalyan) | ||
| + | # Larger charge asymmetry runs to check BCM/helicity signals in HAPPEX, HRS, thirdarm, Moller DAQs simultaneously | ||
| + | # Establish that there are no problems by checking Hall-A beam charge asymmetries measured in Hall-C | ||
| + | |||
| + | <U> Lumi Detector Check-out</U> (Pengjia, Kalyan) | ||
| + | # Adjust HV with 100nA current to make sure all channels are roughly aligned and there is no saturation in Happex ADC | ||
| + | # Measure lumi asymmetries | ||
| + | |||
| + | == Task V: Tungsten Calorimeter == | ||
| + | |||
| + | (Resp: Alexandre, Pengjia) | ||
| + | |||
| + | # Commission tungsten calorimeter | ||
| + | # BCM calibration ? | ||
| + | # How do we establish that we can achieve ~1% measurement ? | ||
| + | |||
| + | == Task VI: Optics Commissioning == | ||
| + | |||
| + | (Resp: Jixie, Min, Vince et al.). | ||
| + | |||
| + | Full details are provided at: | ||
| + | *[http://hallaweb.jlab.org/experiment/g2p/collaborators/jixie/20120226_Optics_Final/g2p_optics_plan.pdf Optics run plan] | ||
| + | |||
| + | == Task VII: On-line Analysis == | ||
| + | |||
| + | (Resp: Toby) | ||
| + | |||
| + | # Make sure all on-line analysis scripts are up to date on both arms | ||
| + | # Post easy instructions for the shift crew on how to start online analysis (stick-notes near the DAQ machine) | ||
| + | # Make sure all the important information is recorded in the datastream: | ||
| + | ## EPICS: Beam diagnostics(BCM, BPM, HAPRP etc..) | ||
| + | ## Target variables | ||
| + | ## Helicity sorted scalers information ( triggers, L1A, BCM, helicity etc.) | ||
| + | ## Helicity in ADC, scaler TIR | ||
| + | |||
| + | == Task VIII: Beam Energy Measurement == | ||
| + | |||
| + | (Resp: Vince?) | ||
| + | |||
| + | # Mott ? | ||
Revision as of 16:10, 27 February 2012
E08-027/E08-007 Commissioning Runplan
Contents
Task I : Beamline Commissioning (Y. Roblin)
Initial Beam Accelerator Ops, with assistance from the Hall A shift crew. This includes delivery of beam to the dump, commissioning of the BPMs, calibration with the Harp and power up of the rasters.
Full Details for ONLY straight-through beam delivery are provided at:
Start-up configuration
- Two pass beam, E0 =2.2 GeV, polarized, no raster.
- Current: Initially pulsed up to 2-4<math>\mu</math>A pulsed, then up to 5 <math>\mu</math>A CW.
- Spectrometers at 12.5 degrees, <math>P_0=??</math> MeV (carbon elastic).
- Sieve slits : OUT.
- Septa settings: 5.69 degrees.
- Compton chicane: OFF.
- Polarized Target chicane : OFF and degaussed.
- Tungsten Calorimeter : Retracted.
- Polarized Target: Field OFF
Task II : Moller Commissioning (1 shift)
(Resp: O. Glamazdin, J. Zhang)
- Detector HV tuning (30min)
- Q1 and Q2 quadruple magnets scan (1hour)
- Moller target longitudinal scan (30 min)
- Beam polarization measurement (30-40min)
- MCC job (to set Moller settings and to restore previous beam parameters) (~2hours)
Total: 5 hours.
Task III: Compton Test (2 shifts)
(Resp: Sirish et al.)
Task IV: HRS/Detector Checkout
(Resp: g2p students)
Most of these check-out can be done during the initial beamline commissioning(see above)
HRS and Septum Magnet Checks (Min, Jixie?)
- Cycle magnets
- Septum field vs current, checks with carbon elastic peaks
HRS Detectors Check-out (Melissa, Ryan, Vince)
- Check all the detectors in both arm to establish that we don't have problems.
- Post ALL the online plots for the detectors (ADC, TDC etc..) in the Halog
- VDC (efficiencies etc..)
- Gas Cerenkov (ADC and timing peaks)
- S1 and S2m (ADC and timing peaks)
- Lead-glass Calorimeter (ADC)
- Check HV on all the detectors, align the peaks if necessary
DAQ/Trigger Check-out (Melissa, Ryan, Vince)
- Establish the DAQ conditions for production
- What is the max rate DAQ can run with < 20% DT (Buffered and unbuffered mode) ?
- Record deadtime as a function of DAQ rate. Change rate via current or prescalers.
- Check synchronization of ROCs in buffered mode
- Make sure all important scaler channels are working (BCM, Helicity, triggers, L1A, clock)
- Check scalers in S1 and S2m detectors for double pulsing
Third Arm Detector Check-out (Chao, Kalyan)
- Set thresholds for 2.2 GeV beam
- Check for bad channels, double peaks etc ..
- Check deadtime, helicity, BCM scalers
Beam Diagnostics Check-out ( Pengjia, Alexandre, Kalyan)
- Check BPM, slow and fast raster signals in the data
- Is spot++ working for both arms?
- BPM commissioning plan by Pengjia here
- Check BCM signals in the scalers
- BCM calibration?
Helicity Checks (Chao, Pengjia, Kalyan)
- Larger charge asymmetry runs to check BCM/helicity signals in HAPPEX, HRS, thirdarm, Moller DAQs simultaneously
- Establish that there are no problems by checking Hall-A beam charge asymmetries measured in Hall-C
Lumi Detector Check-out (Pengjia, Kalyan)
- Adjust HV with 100nA current to make sure all channels are roughly aligned and there is no saturation in Happex ADC
- Measure lumi asymmetries
Task V: Tungsten Calorimeter
(Resp: Alexandre, Pengjia)
- Commission tungsten calorimeter
- BCM calibration ?
- How do we establish that we can achieve ~1% measurement ?
Task VI: Optics Commissioning
(Resp: Jixie, Min, Vince et al.).
Full details are provided at:
Task VII: On-line Analysis
(Resp: Toby)
- Make sure all on-line analysis scripts are up to date on both arms
- Post easy instructions for the shift crew on how to start online analysis (stick-notes near the DAQ machine)
- Make sure all the important information is recorded in the datastream:
- EPICS: Beam diagnostics(BCM, BPM, HAPRP etc..)
- Target variables
- Helicity sorted scalers information ( triggers, L1A, BCM, helicity etc.)
- Helicity in ADC, scaler TIR
Task VIII: Beam Energy Measurement
(Resp: Vince?)
- Mott ?
