Difference between revisions of "Beam Recovery"

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(Procedure for Long Beam Down)
(Procedure for Long Beam Down)
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#* BPM4E (X,Y) = ( 0.6, 0.4) mm
 
#* BPM4E (X,Y) = ( 0.6, 0.4) mm
 
#* See white board for updates on these.
 
#* See white board for updates on these.
#  Establish Raster
+
#  Establish Raster (12 width and 7.2 height in MCC units)
 
#*        It gets turned off for access, (sometimes people forget)
 
#*        It gets turned off for access, (sometimes people forget)
 
#*        Still at empty target.
 
#*        Still at empty target.
Line 38: Line 38:
 
#*        1 uA rastered beam on Carbon Hole target.
 
#*        1 uA rastered beam on Carbon Hole target.
 
#*        Lock the beam position using 1 uA current.
 
#*        Lock the beam position using 1 uA current.
#*        Go to 20 nA current, turn on scintillator HVs - check T1 rates (~50-100 kHz, reduce beam current if necessary)
+
#*        Go to 20 nA current
#*        Check spot++ on Carbon hole target.
+
#*        turn on scintillator HVs - check T1 rates (~50-100 kHz)
#**          hole within 1mm of center of the raster
+
#**  reduce beam current if necessary and record attenuator and slit value)
#**          Size of raster 4x6 mm (2mm diameter hole)
+
#*        Check spot++ on Carbon hole target
#    Put in the Lead /1% carbon target
+
#**          Is the hole within 1mm of center of the raster in the horizontal direction?
 +
#**          Is the size of the raster about 4x6 mm2 (2mm diameter hole) in the plot?
 +
#    Put in the Lead target
 
#*        See white board for which one we are using
 
#*        See white board for which one we are using
#*        <span style="color:red">IMPORTANT:</span>  Raster always on and 4.4x7.2 mm2 (MCC unit) when Lead /1% carbon target in beam !!
+
#*        <span style="color:red">IMPORTANT:</span>  Raster always on and 12x7.2 mm2 (MCC unit) when Lead target in beam !!
 
#*        Ask for the <span style="color:red">SAME</span> attenuator and slit as above.
 
#*        Ask for the <span style="color:red">SAME</span> attenuator and slit as above.
 
#*        Observe T1/T2 = 13 +/- 3 kHz.  This is fine.  
 
#*        Observe T1/T2 = 13 +/- 3 kHz.  This is fine.  

Revision as of 16:59, 24 July 2019

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


GOALS

  • 1. Make sure we are centered on beam collimator so we don't destroy it.
  • 2. Ideally that BPM position is also compatible with not hitting the copper frame of the Pb/D target. Need to check.
  • 3. Rastered beam should be big enough to spread heat and not melt the target, and also at least 3 mm from copper frame. (scatter from Cu would be a ruinous background.)

NOTE

  • The "MCC units" of raster is what they set and what is displayed in the Raster GUI.
  • The "observed" raster size is what is displayed by spot_L. It's different because of quad optics.
  • Make sure you understand the difference. We care about the observed size, but we communicate to MCC by telling them in their units.

PREX I procedure

Procedure for Long Beam Down

Check if the septum on !!

Make sure we have Tune P. (If someone has turned off HRS magnets they may not come back in right state.)

Image 1
  1. Empty target, establish correct beam position Check beam position
    • BPM4A (X,Y) = ( 0, 0) mm
    • BPM4E (X,Y) = ( 0.6, 0.4) mm
    • See white board for updates on these.
  2. Establish Raster (12 width and 7.2 height in MCC units)
    • It gets turned off for access, (sometimes people forget)
    • Still at empty target.
    • All scint HV off (normally they are).
  3. Put in Carbon Hole (90 deg) target
    • 1 uA rastered beam on Carbon Hole target.
    • Lock the beam position using 1 uA current.
    • Go to 20 nA current
    • turn on scintillator HVs - check T1 rates (~50-100 kHz)
      • reduce beam current if necessary and record attenuator and slit value)
    • Check spot++ on Carbon hole target
      • Is the hole within 1mm of center of the raster in the horizontal direction?
      • Is the size of the raster about 4x6 mm2 (2mm diameter hole) in the plot?
  4. Put in the Lead target
    • See white board for which one we are using
    • IMPORTANT: Raster always on and 12x7.2 mm2 (MCC unit) when Lead target in beam !!
    • Ask for the SAME attenuator and slit as above.
    • Observe T1/T2 = 13 +/- 3 kHz. This is fine.
    • Use these low current running Cavity BCM nominal points as reference if the Cavity BCMs are relied on (or see whiteboard)
  5. Run spot_L again, this time with ps8=0 and ps1/2=10
    • Observe the raster current pattern, see if it's flat
    • Flat means we're not hitting a frame ! (See histogram circled with black curve - with 1% Carbon target)
    • Increase raster by 50% and check spot++ again to make sure not hitting the frame
    • Go back to 4.4x7.2 mm2 (MCC unit) raster size.
  6. Turn off all scint HV.
  7. Ready for high current: Ramp up to 50 uA at about 10 uA per min.

Procedure for Short Beam Down or target movement

less than 2 hours of no beam, and no changes to beam

IMPORTANT: Raster always on and 4.4x7.2 mm2 (MCC unit) when Lead / 1% carbon target in beam !!

  1. If you are unsure of raster status, check it !!
  2. Can be sure raster is ok if
    • You were just running and it was on.
    • Check the scope in middle room (familiar TV pattern of raster)
    • Look at raster EPICS screen.
  3. To check raster:
    • Go to empty target
    • Ask for 1 uA
    • Do a spot_L run with ps8=2 as explained above.
  4. Put in Pb/1% Carbon Target
    • See white board for which one.
  5. Ask for 1 uA. Check beam positions.
    • BPM4A (X,Y) = ( 0, 0) mm
    • BPM4E (X,Y) = ( 0.6, 0.4) mm
    • See white board for updates on these.
    • Tolerances on these : +/- 0.3 mm
  6. If you didn't do spot_L in the first step, do one a quick one now.
    • Increase raster by 50% and check spot++ again to make sure not hitting the frame
    • Go back to 4.4x7.2 mm2 (MCC unit) raster size.
  7. Ready for high current: Ramp up to 50 uA at about 10 uA per min.