Difference between revisions of "Bullseye scans"

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(CREX Bullseye scan 08/09/2020 -- Completed by Adam and Eric)
 
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===<FONT Color="red">CREX Bullseye scan 08/09/2020</FONT>===
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===<FONT Color="black">CREX Bullseye scan 08/09/2020 -- Completed by Adam and Eric</FONT>===
 
This scan was used for BPM position calibration (Bullseye scan). CREX target nominal center point is (-0.3,-1.5), the scan want to cover at least the area of the raster coverage (2x2). We need two harps(1H04A and 1H04B) scan for each point, which is listed in the table bellow.  
 
This scan was used for BPM position calibration (Bullseye scan). CREX target nominal center point is (-0.3,-1.5), the scan want to cover at least the area of the raster coverage (2x2). We need two harps(1H04A and 1H04B) scan for each point, which is listed in the table bellow.  
  
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2.  Set the Counting DAQ Trigger scale factor to L_PS8=100 (LHRS) and R_PS8=1(RHRS)
 
2.  Set the Counting DAQ Trigger scale factor to L_PS8=100 (LHRS) and R_PS8=1(RHRS)
  
3.  Call MCC to request unrastered beam current I=2uA <FONT Color="red">( cross check the target to request raster off )</FONT>. Ask MCC to move the beam to the position listed in the bellow table one by one. E.g. Starting with the first point (X,Y)=(1.7,0.5), <FONT Color="red"> and look at the strip chart or HallA tool to make sure that the BPM IPM1H04A and IPM1H04E locked position is right)</FONT>
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3.  Call MCC to request unrastered beam current I=2uA CW <FONT Color="red">( cross check the target to request raster off and make sure it is CW beam )</FONT>. Ask MCC to move the beam to the position listed in the bellow table one by one. E.g. Starting with the first point (X,Y)=(1.7,0.5), <FONT Color="red"> and look at the strip chart or HallA tool to make sure that the BPM IPM1H04A and IPM1H04E locked position is right)</FONT>
  
 
4.  If the position is stable, turn on the  CODA for both LHRS and RHRS counting DAQ.
 
4.  If the position is stable, turn on the  CODA for both LHRS and RHRS counting DAQ.
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| (1.7, -3.5)
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| [https://logbooks.jlab.org/entry/3823883 3823883]
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| [https://logbooks.jlab.org/entry/3823882 3823882]
  
 
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| (-2.3, -3.5)
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| (+1.7, -3.5)
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| 3125
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| 22131
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| [https://logbooks.jlab.org/entry/3823892 3823892]
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| [https://logbooks.jlab.org/entry/3823894 3823894]
  
 
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| (-2.3, 0.5)
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| (-2.3, -3.5)
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| 3126
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| 22132
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| [https://logbooks.jlab.org/entry/3823902 3823902]
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| [https://logbooks.jlab.org/entry/3823900 3823900]
  
 
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| (-0.3, -1.5)
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| (-2.3, +0.5)
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| 3127
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| 22133
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| [https://logbooks.jlab.org/entry/3823907 3823907]
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| [https://logbooks.jlab.org/entry/3823909 3823909]
  
 
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Latest revision as of 12:17, 11 August 2020

In the process of editing and updating this page. Please contact Juliette Mammei crowder@jlab.org with questions or suggestions.

PREX Main<< HOW TOs << Expert Tools

See also: Harp Scans

  • BPM Calibrations (Bullseye Scan, 1-2 hours)
  • BPM pedestal run (20 minutes)
  • How to use these to calibrate the BPMs.

How to perform a bulls eye scan:

1. You need unrastered, stable beam:

    - This must be completed in phase 1! 
    - Target/trigger doesn't matter here. Use clock trigger, adjust PS8 to get high rate
    - run both arms

2. Ask MCC to steer the tbeam to the nominal center of the target.


3. Wait until beam is stable and have MCC perform a harp scan for the two superharps near the target (1H04A and 1H04B) and take a CODA run for both the left and right spectrometers during the same time. Start the coda run first before asking MCC. Request MCC to make an ELOG entry with the Harp results, you should see all three harp wires. Record ELOG entry numbers and timestamps of both harpscans. Take each run for ~50k events.

You can bring the harp fitter up from JMenu (JMenu  > Operations > Harps > Harp Fitter Tool)
Left top corner menu > Harp Selection > HALL A

4. Ask MCC then to steer the beam to positions around the nominal center:

    - cover at least the area the raster will cover: (2,2), (2,-2), (-2,-2), (-2,2), and repeat (0,0)
    - repeat harp and CODA runs for each position

5. Record Harp scan run numbers and corresponding CODA run number for each beam position. As an example, see HALOG # 3324009.

6. Make a record of the harp scans and CODA runs in the HALOG.

How to analyze the bulls eye scan:

 - detailed instructions can be found at the Analyzing BPMs website.
 - the shift crew is not expected to analyze the bulls eye scan.


Bullseye scan 06/21/2019

This scan was taken with position lock on, and was not used for calibration.

Position LHRS coda run RHRS coda run Harp entry no Harp A timestamp Harp B timestamp
(0.6,0.4) 1448 (2745 Parity run) 20586 3690856 6/21/2019(3:51:26) 6/21/2019(3:53:08)
(2.6,2.4) 1450 (2747 Parity run) 20587 3690869 6/21/2019(4:03:02) 6/21/2019(4:04:01)
(2.6,-1.6) 1451 (2748 Parity run) 20588 3690877 6/21/2019(4:13:28) 6/21/2019(4:14:37)
(-1.4,-1.6) 1452 (2749 Parity run) 20589 3690885 6/21/2019(4:21:22) 6/21/2019(4:22:28)
(-1.4,2.4) 1453 (2750 Parity run) 20590 3690891 6/21/2019(4:29:11) 6/21/2019(4:30:08)


Bullseye scan 06/22/2019

This scan was used for BPM position calibration. The Harp B scan for (2, 2) was missing, so we just used the results of the fit from (2, -2) for the x position and (-2, 2) for the y position.

Position LHRS coda run RHRS coda run Harp A entry no Harp B entry no Harp A timestamp Harp B timestamp
(2, 2) 1521 20662 3691960 N/A 6/22/2019(18:27:40) N/A
(2, -2) 1523 20664 3691973 3691975 6/22/2019(18:54:20) 6/22/2019(18:55:25)
(-2, -2) 1525 20666 3691988 3691990 6/22/2019(19:09:19) 6/22/2019(19:10:27)
(-2, 2) 1527 20668 3692006 3692004 6/22/2019(19:28:58) 6/22/2019(19:27:54)
(0, 0) 1529 20669 3692018 3692020 6/22/2019(19:50:59) 6/22/2019(19:51:56)

CREX Bullseye scan 08/09/2020 -- Completed by Adam and Eric

This scan was used for BPM position calibration (Bullseye scan). CREX target nominal center point is (-0.3,-1.5), the scan want to cover at least the area of the raster coverage (2x2). We need two harps(1H04A and 1H04B) scan for each point, which is listed in the table bellow.

1. Move target to ops target = carbon 2% target, production target= Home

2. Set the Counting DAQ Trigger scale factor to L_PS8=100 (LHRS) and R_PS8=1(RHRS)

3. Call MCC to request unrastered beam current I=2uA CW ( cross check the target to request raster off and make sure it is CW beam ). Ask MCC to move the beam to the position listed in the bellow table one by one. E.g. Starting with the first point (X,Y)=(1.7,0.5), and look at the strip chart or HallA tool to make sure that the BPM IPM1H04A and IPM1H04E locked position is right)

4. If the position is stable, turn on the CODA for both LHRS and RHRS counting DAQ.

5. While the target operator starting the CODA, RC need to Call MCC to request two harps scan (1HA1H04A and 1HA1H04B harps) at the current position (E.g..(X,Y)=(1.7,0.5)) and ask the MCC operator to post the harp scan results on the HALOG too.

6. Check the HALOG to make sure that the harp scan results are acceptable, otherwise you need to ask MCC to redo the unacceptable harp scan. Here is the example of the good harp scan https://logbooks.jlab.org/entry/3748443 and https://logbooks.jlab.org/entry/3748444, here the Lognumber 3748443 is 'Harp A entry no' and 3748444 is 'Harp B entry no'. Please fill the corresponding new log numbers in the table bellow.The good harp scan result includes three sharp peaks, if the individual peak has 'double peaks' structure or the peak is too wide, then you need to ask MCC to redo the corresponding harp scan .

7. If the scan result is acceptable, then move to the other point. Repeating the step 3 to 6 until all 5 position points are done.

Position(X,Y) IPM1H04A, IPM1H04E LHRS coda run RHRS coda run Harp A entry no Harp B entry no
(-0.3, -1.5) 3123 22129 3823860 3823865
(+1.7, +0.5) 3124 22130 3823883 3823882
(+1.7, -3.5) 3125 22131 3823892 3823894
(-2.3, -3.5) 3126 22132 3823902 3823900
(-2.3, +0.5) 3127 22133 3823907 3823909

BPM pedestal run

The following runs were used to find the pedestals: LHRS Run #1518, RHRS Run #20657

  1. Ask MCC to set iocse10 to Forced gain = 0.
  2. Take CODA run for both Right and Left arms.
    • Use only clock triggers. T8=100
    • Need about 100k events.
  3. Ask MCC to set iocse10 back to auto gain.
    • can be located at /cs/opshome/edm/bpm/diag_see/IPM_E_GainCntrl.edl



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