PREX2AuxiliaryMeasurements

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PREX Main

PREX-2 Auxiliary Measurements

Optics and Q2

  1. Energy Measurement (Bob, talk to Doug)
    • look for 1e-3 accuracy. Non invasive?
  2. VDC/GEM Rate study
    • Detector counting mode.
    • S0 trigger
    • Lead target
    • production raster and beam position
    • Use cavity lock, low current
    • start at low S0 rate (50kHz?) and go up in rate to 500 kHz, in several steps (50, 100, 200, 500 kHz)
    • turn off VDC, continue up to 2MHz rates in GEMs (1MHz, 2MHz)
    • Compare Q2 measurements at each rate from GEMS and VDC to look for rate dependence
  3. Optics Data
    • Sieve in, VDC data. thin Carbon
    • about 500k per run
    • use target lock, about 1 uA
    1. Retake Optics including dp = 0, +-1% (scale all magnets)
    2. shift beam +/- 4mm in horizontal , retake dp = 0 optics
    3. use 90 degree Carbon target

Backgrounds

  1. Thin Lead Target to check for inelastics at high-resolution
    • Previously done with different kinematics. could be repeated.
  2. Thin C12 to measure diamond background spectrum?
  3. Thick C12 to measure diamond background fraction?
  4. A_T detectors (Bob) Significant asymmetries found in A_T detectors, requires investigation
  5. Pole tip re-scattering Q2 or septum mis-tune, to increase interception on pole tip and improve poletip rescattering estimate
  6. Stubby Quartz (Dustin)
    • Replace detector quartz with superelastic stub
    • Integrating measurement
  7. Blank PMT (Dustin)
    • Integrating measurement
    • only if stubby quartz shows something
  8. Rescattering measurement
    • repeat of previous measurements. Roughly 1 shift
    • Detune spectrometer up in momentum, to dump elastic peak into spectrometer wall.
    • Measure (integrating mode) signal in main detectors. Requires HV boot leg to get higher gain (is 10x possible?)
    • should scale all spectrometer magnets _except_ Q3.


Detectors

  1. Linearity Studies (PITA + current scans) --
  2. Linearity Studies (LED) --


Moller polarimetry

  1. Repeat measurements - need enough granularity to track changing polarization. at least 2x/week = 6 measurements

Compton polarimetry

  1. No-target runs?
  2. Laser polarization optimization
  3. Laser polarization flip?
  4. linearity studies
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