Difference between revisions of "CREX Detailed High current plan"
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##* BCM and BPM yields, widths. | ##* BCM and BPM yields, widths. | ||
#<font color=blue>Calibration scan, see [[Detailed_Calibration_plan|Calibration Plan]]</font> | #<font color=blue>Calibration scan, see [[Detailed_Calibration_plan|Calibration Plan]]</font> | ||
| − | ## * FFB ON | + | ##* FFB ON |
| − | ## * To 150 uA | + | ##* To 150 uA |
| − | ## * SAMs HVs set | + | ##* SAMs HVs set |
| − | ## * DETs HVs set | + | ##* DETs HVs set |
| − | ## * PITA scan at end to check det linearities later | + | ##* PITA scan at end to check det linearities later |
#<font color=blue>BMW </font> | #<font color=blue>BMW </font> | ||
| − | ## * Tune beam, slow lock on (ad FFB on?), exercise BMW, check no ion chamber trips, check pauses locks and FFB | + | ##* Tune beam, slow lock on (ad FFB on?), exercise BMW, check no ion chamber trips, check pauses locks and FFB |
| − | ## * Low current 2-3uA, exercise BMW, check BPM signals, check no ion chamber issues | + | ##* Low current 2-3uA, exercise BMW, check BPM signals, check no ion chamber issues |
| − | ## * Target in, low current 2-3uA,exercise BMW, check BPM signals, check no ion chamber issues | + | ##* Target in, low current 2-3uA,exercise BMW, check BPM signals, check no ion chamber issues |
| − | ## * "Ready for high current" | + | ##* "Ready for high current" |
Revision as of 13:32, 8 December 2019
PREX version, CREX Calibration Plan, CREX Production Plan
Beamline instrumentation calibration - All copied from PREX, updated to CREX numbers
- Check detector alignment and pulse height (Done)
- 1uA Hall A Target BPM lock (with Cavities if required, probably not)
- 0.2% Carbon
- 20 nA, cavity locks on and cavities in low current mode
- VDC on.
- Check rates, verify pulse height spectra and alignment
- Modify DAQ to include GEMS. 10 minute run with GEMS.
- C-Hole target, verify spot (Done)
- 20 nA, spot ++ verify raster size
- harp scan 4e, verify intrinsic size at target
- High current - no target (Skip it tonight)
- verify compton rates
- Ramp to SAM Shutter test
- Insert Lead Target.
- Raster 10x10.
- 20 nA. (Atten 107, slit 15)
- Cav locks on
- spot++ verify not seeing edges
- Set raster ?x? (to get (x.y) = 4x6 real)
- Go up in current 1uA (5min)
- All HV off in HRS hut
- Target lock (0.6mm, 0.4mm) -> (-0.3, -0.5) is collimator hole center for CREX
- Collimator water temp
- Beamline temperatures
- Ion chamber (stability)
- SAM yields
- BCM and BPM yields, widths.
- Insert Lead Target.
- Aaccess to remove SAM shutters, detector to integrate mode.
- Ramp to High current test.
- Cavity bpm back to high current mode
- All HV off in HRS hut, except quartz
- Target lock (0.6mm, 0.4mm)
- 20uA (review) (10min)
- Target lock, FFB (monitor bpm Saturation)
- Collimator water temp
- Beamline temperatures
- Ion chamber (stability)
- SAM and DET yields and widths
- BCM and BPM yields, widths.
- 100uA (review) (10min)
- Target lock, FFB (monitor bpm SAT)
- Collimator water temp
- beamline temperatures
- Ion chamber (stability)
- SAM and DET yields and widths
- BCM and BPM yields, widths.
- 150A(1hr)
- Target lock, FFB (monitor bpm SAT)
- Aq feedback
- Collimator water temp
- beamline temperatures
- Ion chamber (stability)
- SAM and DET yields and widths
- BCM and BPM yields, widths.
- Calibration scan, see Calibration Plan
- FFB ON
- To 150 uA
- SAMs HVs set
- DETs HVs set
- PITA scan at end to check det linearities later
- BMW
- Tune beam, slow lock on (ad FFB on?), exercise BMW, check no ion chamber trips, check pauses locks and FFB
- Low current 2-3uA, exercise BMW, check BPM signals, check no ion chamber issues
- Target in, low current 2-3uA,exercise BMW, check BPM signals, check no ion chamber issues
- "Ready for high current"
