Difference between revisions of "Run1 - January 2015"

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= Target Foil Extrapolation (Sat Jan 17 - Mon Jan 19) =
 
= Target Foil Extrapolation (Sat Jan 17 - Mon Jan 19) =
: 14 foils to study + 1 thru hole
+
; 14 foils to study + 1 thru hole
 
  spectra – with typical low ~2 MeV energy threshold
 
  spectra – with typical low ~2 MeV energy threshold
 
  statistics – possibly higher ~3 MeV threshold to reduce dump events
 
  statistics – possibly higher ~3 MeV threshold to reduce dump events
:Deadtime
+
; Deadtime
 
  Semi-int mode we use w/ FADC/TDC/scalar is ~5% @ 1500 Hz
 
  Semi-int mode we use w/ FADC/TDC/scalar is ~5% @ 1500 Hz
: Inelastic fraction
+
; Inelastic fraction
 
  Worst case ~200 Hz/det  (best case ~25 Hz/det)  
 
  Worst case ~200 Hz/det  (best case ~25 Hz/det)  
 
  Energy threshold will be defined to set this value
 
  Energy threshold will be defined to set this value
 
  Time veto is tricky and too risky at 62 MHz
 
  Time veto is tricky and too risky at 62 MHz
: Assuming I=5uA, R<1500Hz, 200Hz/det background
+
; Assuming I=5uA, R<1500Hz, 200Hz/det background
 
  28 hours * 1.2 / 8 = 4-5 shifts
 
  28 hours * 1.2 / 8 = 4-5 shifts
 
  dP/P sets N_elastic (using 1σ analysis cut of all 4 det)
 
  dP/P sets N_elastic (using 1σ analysis cut of all 4 det)
 
  Measurement of of inelastic (dump) events figures into run time
 
  Measurement of of inelastic (dump) events figures into run time
: [[File:140112_runtimes.png|thumb|center|300px]]
+
; [[File:140112_runtimes.png|center]]
 +
 
 +
= How to measure emittance =
 +
: Beam Setup
 +
Use qsUtility to scan MQJ0L02 and measure at IHA0L03.
 +
A config file varies MQJ0L02 while setting MQJ0L02A = MQJ0L03A =MQJ0L03 = 0
 +
Make sure beam transports MQJ0L02-IHA0L03 w/ those quads off
 +
: qsUtility Info
 +
/cs/prohome/apps/q/qsUtility/pro/fileio/config/IHA0L03_jmg1.xml
 +
Documentation:http://opweb.acc.jlab.org/CSUEDocs/q/qsUtility/pro/doc/dataCollector_user_guide/dataCollector_user_guide.html
 +
21 K1 values (-3.0, -3.2, … , -5.8, -6.0) are good and take 45 min
 +
Result will be emittance and Twiss at entrance to MQJ0L02
 +
: qsUtility assume v=c
 +
BDL[G] = K1[1/m^2] * L[m] * E[MeV] * 10/0.2998
 +
Scale E by beta so that p=beta*E is used instead
 +
 
 +
= How to measure momentum =
 +
: Use quad centering procedure to set BPM offsets:
 +
MQJ0L02 = IPM0L02
 +
MQJ0L03 = IPM0L03
 +
MQD5D00 = IPM5D00
 +
MQD5D01 = IPM5D01
 +
Quad centering Spata suggests standard dithering and then update .SOF
 +
: Beam steering
 +
Earth’s field is too strong to turn all correctors off
 +
Excite minimum number of correctors and record values
 +
p = sqrt [T*(2m+T)] so T = 5.0 MeV =>  p 5.487 MeV/c
 +
Check me: dT/T = (T+2m)/(T+m) * dp/p so dT/T=1.09 * dp/p @ T=5.0
 +
Using spectrometer dipole MDL0L02
 +
Record Hall probe field
 +
Use BDL calculation on control screen
 +
 
 +
= How to use Elegant files =

Revision as of 14:00, 12 January 2015

Shift Schedule

140112 shifts.png

Shift Worker Duties

Beam Driver
Beam setup: gun + laser + spin + beam to Mott
BCM & target motion FSDs enabled 
Vacuum levels reasonable
Magnet and RF setup saved
PITA adjusted for IHWP IN/OUT
DAQ Driver
Start/Stop DAQ entering correct run information
Monitor event rates and maintain dead time <5%
Coordinate run start/stop with Beam and Analysis Drivers
Analysis Driver
Runs decoded, analyzed and promptly inspected
Run # and information logged onto run sheets
Elastic events counted for IHWP=IN/OUT

Prep Work (through Tuesday Jan 13)

  1. Make a photocathode – SL5247-1 made
  2. Test IHA2D00 – wires & stroke good, but data file odd vs. others
  3. Hi-Pot IP – FE’r potted, but high again, vac readback not good
  4. CHL 2K cooldown – maybe early, Monday Jan 12th
  5. Install laser – Tue or Wed
  6. Test laser RF trigger – after laser installed (1V, 10ns @ RF)
  7. Verify beam line layout –documented below
  8. Build elegant deck – working
  9. Build qsUtility config file –documented below

Injector Setup and Mott Checkout (Wed Jan 14 - Fri Jan 16)

  1. Restore beam to FC2 @ 6.3 MeV/c
  2. Mott test: DAQ FADC/TDC synchronization
  3. Mott test: event separation and transmission at 62MHz acceptable
  4. Quad center BPMs for momentum measurement
  5. Test harp IHA2D00 if ready for energy spread measurement
  6. Scale cryounit for p=5.487 MeV/c and minimize energy spread
  7. Precisely measure beam momentum
  8. Measure beam emittance
  9. Measure energy spread
  10. Calibrate BCM to FC2

Mott Setup and Systematics Testing (Sat Jan 17)

  1. Setup good orbit to Mott
  2. Set PMT HV
  3. Set PMT energy thresholds
  4. Set polarization vertically
  5. Calibrate PITA vs IHWP IN/OUT
  6. Finalize orbit w/ instrumental asymmetry, TOF and spectra
  7. Adjust target offsets per vertical instrumental asymmetry
  8. Measure dump rate fraction to determine run times
  9. Measure dead-time vs. rate
  10. Measure asymmetry vs. beam current
  11. Measure asymmetry vs. time (stability)
  12. Measure asymmetry vs. spot size
  13. Measure asymmetry vs. energy spread

Target Foil Extrapolation (Sat Jan 17 - Mon Jan 19)

14 foils to study + 1 thru hole
spectra – with typical low ~2 MeV energy threshold
statistics – possibly higher ~3 MeV threshold to reduce dump events
Deadtime
Semi-int mode we use w/ FADC/TDC/scalar is ~5% @ 1500 Hz
Inelastic fraction
Worst case ~200 Hz/det  (best case ~25 Hz/det) 
Energy threshold will be defined to set this value
Time veto is tricky and too risky at 62 MHz
Assuming I=5uA, R<1500Hz, 200Hz/det background
28 hours * 1.2 / 8 = 4-5 shifts
dP/P sets N_elastic (using 1σ analysis cut of all 4 det)
Measurement of of inelastic (dump) events figures into run time
140112 runtimes.png

How to measure emittance

Beam Setup
Use qsUtility to scan MQJ0L02 and measure at IHA0L03.
A config file varies MQJ0L02 while setting MQJ0L02A = MQJ0L03A =MQJ0L03 = 0
Make sure beam transports MQJ0L02-IHA0L03 w/ those quads off
qsUtility Info
/cs/prohome/apps/q/qsUtility/pro/fileio/config/IHA0L03_jmg1.xml
Documentation:http://opweb.acc.jlab.org/CSUEDocs/q/qsUtility/pro/doc/dataCollector_user_guide/dataCollector_user_guide.html
21 K1 values (-3.0, -3.2, … , -5.8, -6.0) are good and take 45 min
Result will be emittance and Twiss at entrance to MQJ0L02
qsUtility assume v=c
BDL[G] = K1[1/m^2] * L[m] * E[MeV] * 10/0.2998
Scale E by beta so that p=beta*E is used instead

How to measure momentum

Use quad centering procedure to set BPM offsets:
MQJ0L02 = IPM0L02
MQJ0L03 = IPM0L03
MQD5D00 = IPM5D00
MQD5D01 = IPM5D01
Quad centering Spata suggests standard dithering and then update .SOF
Beam steering
Earth’s field is too strong to turn all correctors off
Excite minimum number of correctors and record values
p = sqrt [T*(2m+T)] so T = 5.0 MeV =>  p 5.487 MeV/c
Check me: dT/T = (T+2m)/(T+m) * dp/p so dT/T=1.09 * dp/p @ T=5.0
Using spectrometer dipole MDL0L02
Record Hall probe field
Use BDL calculation on control screen

How to use Elegant files