Difference between revisions of "CREXAuxiliaryMeasurements"
From PREX Wiki
Jump to navigationJump to searchKent Paschke (talk | contribs) (Created page with "<br> <B>CREX Main</B> << CREX Run Plan == WORK IN PROGRESS== #Please don't worry if there is a needless test on here, or an important one mi...") |
Kent Paschke (talk | contribs) |
||
| Line 8: | Line 8: | ||
== Optics and Q2 == | == Optics and Q2 == | ||
| − | # <font color=" | + | # <font color="red">Energy Measurement </font> (Doug) (non-invasive) |
#* <font color="red"> Priority High </font> | #* <font color="red"> Priority High </font> | ||
| − | |||
#* look for 1e-3 accuracy. Non invasive. | #* look for 1e-3 accuracy. Non invasive. | ||
| − | # <font color=" | + | # <font color="blue">Optics Data</font> |
| − | #* retake watercell, optimization data | + | #* retake watercell, |
| + | #* retake optimization data | ||
| + | #* inelastic spectrum data | ||
# <font color="blue"> Q2 measurement</font> | # <font color="blue"> Q2 measurement</font> | ||
#* Repeat of Q2 measurement, with improved pedestal noise control. | #* Repeat of Q2 measurement, with improved pedestal noise control. | ||
#* Detector counting mode. | #* Detector counting mode. | ||
#* S0 trigger | #* S0 trigger | ||
| − | |||
#* production raster and beam position | #* production raster and beam position | ||
Revision as of 15:44, 10 March 2020
WORK IN PROGRESS
- Please don't worry if there is a needless test on here, or an important one missing, or bad prioritization.
- Lets fix it
Optics and Q2
- Energy Measurement (Doug) (non-invasive)
- Priority High
- look for 1e-3 accuracy. Non invasive.
- Optics Data
- retake watercell,
- retake optimization data
- inelastic spectrum data
- Q2 measurement
- Repeat of Q2 measurement, with improved pedestal noise control.
- Detector counting mode.
- S0 trigger
- production raster and beam position
Backgrounds
- Stubby Quartz / Blinded Quartz (Dustin) (4 hours?)
- Very High priority. Wednesday Swing? Thursday Day?
- Longish access to setup and back out, but short data taking period (production conditions).
- Replace detector quartz with superelastic stub or blinding cap (alternate US/DS and L/R)
- Integrating measurement. Could normalize increased gain just by lowering beam current in production condition.
- If surprising results found, continue test or plan second test
- Rescattering measurement (Bob, Cip?) (~1 shift)
- Detailed Rescattering Runplan
- High Priority
- repeat of previous measurements, but new optics and a crucial cross-check
- Detune spectrometer up in momentum, to dump elastic peak into spectrometer wall.
- Measure (integrating mode) signal in main detectors. Requires HV boot-strap to get higher gain (is 10x possible?)
- should scale all spectrometer magnets.
- At each dipole setting, also take data with nominal septum
- Once the elastic peak is out of the focal plane, it should be possible turn on the S3 and S0 scintillator. This should be done when possible, and the T1/T2/T3 trigger rate recorded for each run.
- Pole tip re-scattering (Bob, Cip?)
- Requires investigation or planning - do we have an idea here?
- Q2 or septum mis-tune, to increase interception on pole tip and improve poletip rescattering estimate
- A_T detectors (Dustin)
- Significant asymmetries found in A_T detectors, requires investigation and planning. A_t detectors now blinded.
Detectors
- Linearity Studies (PITA + current scans) (Caryn)
- These are ongoing - should continue regularly. ~ 1 hour every 3 days.
- Linearity LED tests
- This will be studied off line
Other
- Sign check
- run Moller, Compton, and parity DAQ for quick PITA scan
- Have we already done this? Parasitic with any PITA scan
Moller polarimetry
- Repeat measurements
- about 2x/week. Goal: 1-1.5 shifts per measurement.
- need enough granularity to track changing polarization.
- IHWP IN/OUT
- Copper false/asymmetry
- Target uniformity
Compton polarimetry
- No-target runs
- Laser polarization optimization
- Laser polarization flip
- linearity studies
