Difference between revisions of "CREXRunPlan-August20"
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##* spectrometer magnets on | ##* spectrometer magnets on | ||
##* insert optics C-hole target, verify target location and raster calibration with Spot++ | ##* insert optics C-hole target, verify target location and raster calibration with Spot++ | ||
| + | ##* If hole is significantly different, re-verify BPM positions, log present spot++ and link comparison spot++. Call Kent (434-964-6777). | ||
# First Spectrometer optics / chamber calibration check | # First Spectrometer optics / chamber calibration check | ||
| − | + | #* Carbon optics target, sieve in (verify acceptance, verify optics db with new VDC alignment/calibration). | |
| − | #* Carbon optics target, sieve in (verify acceptance, verify optics db with new VDC alignment/calibration) | ||
#* same, with GEM data | #* same, with GEM data | ||
#* Verify Cold target position | #* Verify Cold target position | ||
| Line 33: | Line 33: | ||
## if right arm not functional, use GEMs with Chandan's GEM alignment? | ## if right arm not functional, use GEMs with Chandan's GEM alignment? | ||
## Take Q2 data (longer run after alignment selected) | ## Take Q2 data (longer run after alignment selected) | ||
| + | ## C-foil optics data (sieve in, dp=+1,0,-1) | ||
# Deferred to later: | # Deferred to later: | ||
| − | |||
## water cell data (sieve in dp=+1,0,-1) | ## water cell data (sieve in dp=+1,0,-1) | ||
## At detector alignment | ## At detector alignment | ||
Revision as of 16:24, 6 August 2020
CREX August 2020 Run Plan for Commissioning and Auxiliary Measurements (In Development)
See also the Daily Run Plan and Previous Daily Run Plans and Auxiliary Measurements
PREX I - 2010 Run Plan PREX II - 2019 Run Plan PREX2 2019 Auxiliary Measurements
Original CREX Run Plan
Beam Restoration and Low Current Commissioning
- Basic beam setup 1 shift: Yves Roblin
- establish tune beam and low current (up to 2uA?) CW beam in the hall.
- Establish beam to dump.
- assume collimator centering as before, trajectory as before
- spectrometer magnets on
- insert optics C-hole target, verify target location and raster calibration with Spot++
- If hole is significantly different, re-verify BPM positions, log present spot++ and link comparison spot++. Call Kent (434-964-6777).
- First Spectrometer optics / chamber calibration check
- Carbon optics target, sieve in (verify acceptance, verify optics db with new VDC alignment/calibration).
- same, with GEM data
- Verify Cold target position
- spot++ on C-hole
- spot++ on Ca-48
- Detector alignment
- start with initial detector guess for detector alignment. (sieve out, Ca-48 target)
- Do not refine for small details! +/- 2mm is fine)
- Do not adjust At detector alignment at this time
- if right arm not functional, use GEMs with Chandan's GEM alignment?
- Take Q2 data (longer run after alignment selected)
- C-foil optics data (sieve in, dp=+1,0,-1)
- start with initial detector guess for detector alignment. (sieve out, Ca-48 target)
- Deferred to later:
- water cell data (sieve in dp=+1,0,-1)
- At detector alignment
- Do we want:
- repeat harp/bullseye scan?
- repeat collimator centering scan?
High current checkout
- Establish high current to hall dump. 150uA. Radiation, IC levels should match expectation.
- Ion Chamber calibration - thick Target 0.25 shift
- Should be easy/standard procedure, but verify calibration matches old calibration
- verify trip points match old trip points, running conditions for high current match old high current running. If not, differences must be understood.
- Setup beam through Compton chicane.
- must keep watch on Compton rates whenever through Compton chicane
- FFB commissioning. Expected to be used when running high current
- Establish beam on cold target
- integrating mode detectors
- C-hole, spot++
- Thick carbon target. Spot++ to verify on target
- Thick carbon to high current. Burn off (30 minutes each at 50,100,150uA)
- Ca-48 target. Spot++ to verify on target
- Ca-48 to high current. Burn off (30 minutes each at 50,100,150uA)
- Verify beam modulation functionality
- low current test, then high current to watch of Ion Chamber rates or beam loss
- Ignore orthogonality for first test
- Test production with 1-2 hours.
- detector and SAM widths
- regression sensitivities
- beam noise and asymmetry check
- collimator water and thermocouple temperatures,
- radiation monitors and ion chamber stability
- Tune beam modulation orthogonality, if needed, after 1-2 hours, then take at least 1 hour data to confirm test.
Start Production
Other Early Tests and Checks (first few days)
- Beam Monitor calibration
- soon after restart
- Run current scan using Unser to calibrate beam charge monitor readout in parity DAQ.
- Run the Compton DAQ concurrently, for calibration
- Go to FixedGain when at 150 uA on bpms (list of crates???) and repeat local current scan to set bpm pedestals.
- Fine-tune detector alignment
- At detector alignment
- Compton commissioning
- Moller measurement
Other Tests and Checks
- Do we need to repeat spin-dance?
- Linearity Studies
- Repeat Q2 and pointing measurements
- Arc Energy Measurement
- Background Studies
- Scans of Septum Magnet and HRS Dipole
- Possible scan of Q1 to optimize acceptance and verify that collimator defines acceptance. (old idea, still relevant?)
Polarimetry Studies
- Compton Commissioning
- Beam Tune, Background reduction
- Compton Cavity Checkout
- Establish laser in cavity
- Move photon detector to visual center, scan beam for collisions
- Establish orbit lock
- Photon Detector Checkout
- Detector power-up, find optimal gain.
- Center detector with fingers.
- 15 minute spectrum and rate study.
- Brief target-out run? (Probably not necessary but may be desirable)
- Polarization commissioning run (up to 2 hour target-in)
- Jaws checkout (?)
- Moller Commissioning -- Simona Malace, Don Jones, et.al.
