1-pass calibration for A1n (Jan 2020)

Outline

For polarized 3He running in Fall 2019 and Spring 2020, the nominal raster for production is 5mm diameter circular. The nominal triggers used are 3/4 (or el clean) for both HMS and SHMS. Both HMS and SHMS should be taking data (for example if run plan specify one run, it means one run on HMS and one run on SHMS simultaneously). No coincidence trigger will be used/setup.

For January 2020 run, we will need to do optics calibration (delta scan only, like), one "quick" Moller measurement for Pb if using different Wien angle setting from December (must), 3He elastic cross section on cell Dutch (must), 3He QE and elastic longitudinal asymmetries (must), and 3He Delta transverse asymmetry measurements (must). The order of these measurements can be determined based on beam/target condition. All reference cell (cross section and pressure curves) runs were completed in Dec 2019. Beam energy measurement will also not be required this time.

Due to complication in spectrometer rotation, we plan to carry out all 1-pass runs with HMS at 11.7 deg and SHMS at 8.5 deg this time.

Polarized_Helium-3_Experiments#Run_Plan <- click this to return to main run plan page

Beam and raster checkout

 Please refer to Beam and Raster Checkout for A1n/d2n (Long Procedure).
 (Brad S. or W. Henry will assist with beam checkout).

Moller Measurement (4-8 hours, Must if the Wien angle is NOT -14.89 deg, not required if Wien is -14.89 deg)

 Ask Dave Gaskell to work his magic. 

Polarized 3He Cell Density Measurement (1 hour plus time for setup)

 Goals 
 - To determine 3He and N2 density in cell Dutch
 
 Setup
 - Beam Current: 10uA, raster always ON (5mm diameter)
 - Target:      Polarized 3He Cell "Dutch", polarized in 180 deg.

 Spectrometer Setup
 - HMS setting: 11.7 deg, -2.1483 GeV/c (electron 3He elastic) for density of "Dutch".
 - SHMS setting: 8.5 deg, -2.12860 GeV/c (electron QE) for collimator check and asymmetry. 
 - HMS Detectors:  Turn OFF HMS h1x01 thru h1x09 and h2x01 thru h2x09, see hclog 3755438
 - SHMS Detectors: follow QE/el measurement setup below.

 Procedure
 - Set spectrometers at the required settings, target at the Polarized 3He Cell position;
 - Check that SC bars in HMS and SHMS are as specified above.
 - Ask MCC for 10 uA raster ON (5mm dia). Adjust prescale factor to limit the DAQ rate to 3.5-4kHz. (Do NOT drop below 10uA. If rates are low, increase beam current but do not exceed 30 uA.)
 - Take two 30-min runs at this setting. (see below)

 Things to watch for
 - We need at least 10k events each from 3He elastic and N2 elastic peaks.
 - Run Chao's script to pull out # of events for 3He elastic and N2 elastic and post in hclog;
 - If we don't expect to achieve 10k events within one hour, contact RC.
 - For SHMS, post ytar(ztar) histogram in hclog. This shows effects of the new collimator.
 - Chao will run analysis remotely to extract 3He elastic fraction on SHMS.

Optics (Momentum) Calibration (6-8 hrs, Like, Not Must)

 Ask Mark Jones to work his magic. Details below:

 Goals 
 - To calibrate momentum reconstruction of spectrometers.
 - Time: estimate 6 hours total including many momentum changes.

 Setup
 - Beam Current:   5-40 uA CW, raster varies, assuming beam energy 2.183 GeV 
 - HMS setting: 11.7 deg, momentum: -2.348 (-8%)
 - SHMS setting: 8.5 deg, momentum: -2.504 (-13%)
 - Target:      Carbon Foil (2 foils at locations 4 and 6; NOT "Carbon Optics" and not "Carbon Hole")
 - Other: we would like to study charge asymmetry during optics runs. Please see hclog 3756555 and contact Brad S. for how to set this up. (After optics, Qasym feedback must be restored for the remaining of the 1-pass running).

 - In case spectrometer angles are not exactly 11.7 and 8.5 deg, here is a spreadsheet to calculate the proper momentum settings

 Procedure
 - Move target to Carbon Foil Target (not Optics, not Carbon Hole) position.
 - start from -8% at HMS and -13% at SHMS, sieve IN;

 - Ask for 40uA raster at 0.5mm, check trigger rates. Adjust the current to reach (3.5-4)kHz on HMS DAQ with PS=1, adjust PS for SHMS to keep DAQ rate within or slightly below (3.5-4)kHz.
 - Take one 20-min runs for HMS and one 20-min run for SHMS at this setting. 
 - Using the same PS factors and beam current, start the delta scan as listed below. Watch PS and rates.

 - HMS delta scan (Sieve IN for all):
   - -8%: 2.34811 GeV
   - -5%: 2.28289 GeV
   - -2%: 2.21855 GeV
   - 0%: 2.17418 GeV 
   - 0%: 2.17418 GeV 
   - 0%: 2.17418 GeV (set raster to 5mm)
   - 0%: 2.17418 GeV (record PS and beam current. Move sieve out and set raster at 5mm, adjust PS or beam current then take one run for 10 minutes. At the end put sieve IN and raster at 0.5 to continue delta scan. do not forgot to change PS and beam current back to OLD values)
   - 2%: 2.13155 GeV
   - 5%: 2.06547 GeV
   - 8%: 2.00024 GeV
   - at the end of the delta scan, check runplan and go to the next momentum setting. 

 - SHMS delta scan (Sieve IN for all):
   - -13%: 2.50379 GeV (skip?)
   - -10%: 2.39616 GeV
   - -5%: 2.28724 GeV
   - 0%: 2.17833 GeV 
   - 0%: 2.17833 GeV (set raster to 5mm)
   - 0%: 2.17833 GeV (record PS and beam current. Move sieve out and set raster at 5mm, adjust PS or beam current then take one run for 10 minutes. At the end put sieve IN and raster at 0.5 to continue delta scan. do not forgot to change PS and beam current back to OLD values)
   - 5%: 2.06941 GeV
   - 10%: 1.96049 GeV
   - 15%: 1.85158 GeV
   - 20%: 1.74266 GeV
   - 25%: 1.63375 GeV
   - at the end of the delta scan, check runplan and go to the next momentum setting. 

 Things to watch for (Expert Analysis)
 - There should be optics expert(s) checking data quality as we go.

reference documents:

https://userweb.jlab.org/~jixie/A1N/optics/result_optics_2.183GeV_8.5deg.txt
https://www.jlab.org/indico/event/330/contribution/5/material/slides/0.pdf
https://userweb.jlab.org/~jixie/A1N/runplan/optics_runplan.pdf

Polarized 3He Delta Transverse Asymmetry (4-8hr)

 Goals 
 - To determine the sign of transverse asymmetry of Delta resonance on HMS and SHMS.
 - On SHMS we will also take QE events which help to determine sign of transverse asymmetry.
 - Experts must watch EDTM rate (Brad or Sylvester)

 Setup
 - Beam Current: 5-30uA, raster always ON (5mm diameter)
 - Beam IHWP:    should be switched half-way
 - Target:       Polarized 3He Cell
 - Detectors:    All scintillator bars ON. 
 - Parity check: Inform Hall A to make sure they set the Qasym feedback cutoff at 2uA.
 - 
 Spectrometer Setup (with HMS 11.7, SHMS 8.5 deg)
 - HMS setting:  11.7 deg, -1.75830 GeV/c (electron W=1.232)
 - SHMS setting: 8.5 deg, -1.79736 GeV/c (electron W=1.232) 

 Pol 3He Target Setup (TO and Target Expert)
 - Target spin direction: pointing either beam-left or beam-right viewing downstream.
 - See Target Field Runplan for coil currents settings (note: in this spreadsheet, target spin 90 is beam-left and 270 is beam-right, i.e. opposite of target field controller screen).

 Procedure
 - Set target at Polarized 3He Cell position, spin pointing either beam-left or beam-right.
 - Check and make sure all scintillator HVs are ON (both HMS and SHMS).
 - Perform one set of polarimetry (NMR, EPR if possible) measurements before taking data.
 - Ask for 5uA raster ON, check rates and set prescale factors (Save them if changed!). 
 - Goal is (3.5-4)kHz DAQ rates on both HMS, SHMS. 
 - If rates too low (unlikely), can increase current to reach the desired rates but do not exceed 30uA.

 - If we have 4 hours of beam time. 

 - Take two 60-minute (beam ON at least 30 min each) runs.
 - Perform one NMR measurement. Verify target is still polarized.

 - Switch beam IHWP position (need to inform other halls in advance). Either from IN to OUT or from OUT to IN.
 - Take two 60-minute (beam ON at least 30 min each) runs.
 - Perform one set of polarimetry (NMR, EPR if possible) measurements.

 - If we have 8 hours of beam time. 

 - Take two 60-minute (beam ON at least 30 min each) runs.
 - Perform one NMR measurement. Verify target is still polarized.
 - Take two 60-minute (beam ON at least 30 min each) runs.
 - Perform one NMR measurement. Verify target is still polarized.

 - Switch beam IHWP position (need to inform other halls in advance). Either from IN to OUT or from OUT to IN.
 - Take two 60-minute (beam ON at least 30 min each) runs.
 - Perform one set of polarimetry (NMR, EPR if possible) measurements.
 - Take two 60-minute (beam ON at least 30 min each) runs.
 - Perform one set of polarimetry (NMR, EPR if possible) measurements.

 Things to watch online
 - Apply y or z cuts to isolate events scattered from 3He gas.
 - Apply 1.1<W<1.35 GeV cut to isolate the Delta resonance.
 - Run online script to ensure we see physics asymmetry. Plot asym vs. W and nu. 
 - HMS and SHMS should see opposite signs of asymmetries (but not the same magnitudes). 

 - Expected asymmetries for Delta(1232): Ameas=0.67% at 11.7deg and 0.46% at 8.5 deg if Pt=50%, Pb=85%, N2 dilution 0.92.
 - Expected asymmetries for QE are given in hclog 3759756 (ignore Aperp2, SHMS will see Aperp always, up to a sign)
 - Expected rate: 5kHz at 1uA, about 10% (5% w/o collimators) would be Delta(1232) from 3He gas for HMS (SHMS), see hclog 3758839 analysis of 11.7 deg data taken previously.
 - Counts needed to reach 10% on Ameas relative: 2.2M on HMS or 4.7M on SHMS. If Pt below 50%, scaleup by (50%/Pt)^2.
 - Expected time to reach 10% on Ameas relative: 1.6 pac hours for HMS, 5.6 pac hours for SHMS (with all paddles on and w/o collimators. Adding target collimators on the SHMS side will help significantly).

Polarized 3He Runs, 3He elastic and QE longitudinal Asymmetries (8-16 hours)

 Goals 
 - To measure physics longitudinal asymmetry of 3He elastic (on SHMS) and QE (on HMS) scattering. 
 - If precision is high, this cross checks PbPt from Moller and Target Polarimetry. 
 - If precision is low, at the minimum we should determine the sign of asymmetries.

 - Experts must watch EDTM rate (Brad or Sylvester).

 Setup
 - Beam Current: 5-30uA, raster always ON (5mm diameter)
 - Target:      Polarized 3He Cell
 - Target spin direction: 180-deg 
 - See Target Field Runplan for coil currents settings.
 - Parity check: Inform Hall A prior to taking data to make sure they set the Qasym feedback cutoff at 2uA.
 - Time: total 8-16 hours of data taking, flip beam IHWP every 4 hours. Do target NMR every two hours and before and after the full data taking.

 Spectrometer Setup (with HMS 11.7 deg, SHMS 8.5 deg)
 - HMS setting: 11.7 deg, -2.08234 GeV/c (electron QE) 
 - SHMS setting: 8.5 deg, -2.12860 GeV/c (electron QE setting, butfocus on 3He elastic events)
 - HMS Detectors: turn off paddles 1-6 on 1X plane and paddles 1-6 on 2X plane, see hclog 3756736. 
 - SHMS Detectors: keep only paddles 7,8 of 1X plane, and paddles 7,8,9 of 2X ON, all others off; see hclog 3760238
 - SHMS (continued): Also suggest for 1Y keep only 7 on, all others off, although this will depends on how well the collimators works.  

 Procedure
 - Set target at the Polarized 3He Cell position, spin 180 deg.
 - Verify HMS SC bar status the same as suggested above;
 - Verify SHMS SC bar status the same as suggested above;
 - Perform one full set of polarimetry (NMR, EPR if possible) measurements before taking data.
 - Ask MCC for 10 uA raster ON (5mm dia), check trigger rates. Goal is to reach (3.5-4)kHz DAQ rates. 
 - If rates too high, adjust PS factors (save PS file if changed!) and/or drop beam current but do not go below 5uA. 
 - If rates too low (unlikely), increase beam current but do not exceed 30uA. 

 - Take 4 60-minute runs (assuming 50% beam efficiency). Perform NMR every 2 hours.

 - Call MCC and ask beam IHWP to be inserted (or taken out). Need to inform other halls prior to the switch.
 - Take 8 60-minute runs (assuming 50% beam efficiency). Perform NMR every 2 hours.

 - Call MCC and ask beam IHWP to be inserted (or taken out). Need to inform other halls prior to the switch.
 - Take 4 60-minute runs (assuming 50% beam efficiency). Perform NMR every 2 hours.

 Things to watch online
 - Ensure the correct SC bars are on (We need 3He elastic events in SHMS and QE events in HMS)
 - Apply z cuts to isolate events scattered from 3He gas (We do not want events from the glass windows!)
 - Apply W or dp cuts to isolate 3He elastic (SHMS) or QE(HMS) events from others.
 - For HMS, run online script to ensure we see physics asymmetry. Plot asymmetry as function of nu (=E-E'). 
 - For SHMS, run online script to ensure we see physics asymmetry. Plot asymmetry as function of W(3He). 

 Predictions
 - QE asymmetry (HMS) predictions are given in hclog 3759756. 
 - Elastic 3He asymmetry (SHMS) is predicted to be 2.5% on SHMS, with Pb=0.8, Pt=0.5 and fN2=0.9 gives Ameas=0.9%.
 - Important: would like to have more than 6% of the full rate on SHMS to come from 3He elastic.

Analysis scripts and some results (summary)

  Script Instructions (outdated, for archive only)
  - Count 3He elastic events for HMS: https://logbooks.jlab.org/entry/3762304
  - Count 3He elastic events for SHMS: https://logbooks.jlab.org/entry/3762452
  - Extract charge and measured asymmetries: https://logbooks.jlab.org/entry/3762522

  Some Results
  - SHMS data with collimators (one of plots shows nuclear super-elastic from windows): https://logbooks.jlab.org/entry/3762479
  - 3He elastic asymmetries #1: https://logbooks.jlab.org/entry/3763001
  - 3He elastic asymmetries #2: https://logbooks.jlab.org/entry/3764288
  - 3He QE/el ratio for SHMS asymmetries reported above using SAGDH data: https://logbooks.jlab.org/entry/3763334
  - 3He transverse Delta(1232) asymmetries: https://logbooks.jlab.org/entry/3763539

  PWIA Calculations
  - 3He QE asymmetry from PWIA: https://logbooks.jlab.org/entry/3759756