Difference between revisions of "Run Plan"

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Set coincidence gate of two paddles to fall within 15-20 ns
 
Set coincidence gate of two paddles to fall within 15-20 ns
  
Verify that scalars are set: singles from front and back + coincidence.
+
Verify that scalers are set for the paddles: singles from front and back + coincidence.
  
The zero point is where the laser beam intersects the feedthrough trumpet.  I figure at
+
Verify that gas is flowing into Accelerator Room (bubbles).
50 Hz, we can get ample statististics for a 2-min run at each setting.  This is to be
+
 
confirmed by the scalars.
+
The zero point is where the laser beam intersects the feedthrough trumpet in the plane of sense
 +
wire 4. The laser beam will first strike the guard wire trumpet.  At 30 to 50 Hz, we can get ample statististics for a 2-min run at each setting.  This is to be confirmed by the scalers.
  
 
''x'':  along wire and ''y'': vertical distance from sense wire 4.
 
''x'':  along wire and ''y'': vertical distance from sense wire 4.
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  o Set:
 
  o Set:
 
     sense: +1375 to +1550V in steps of 25V
 
     sense: +1375 to +1550V in steps of 25V
     field  -688  to -750V in steps of 12.5V
+
     field  -688  to -775V in steps of 12.5V (12 or 13V)
     guard  +688  to +750V in steps of 12.5V
+
     guard  +688  to +775V in steps of 12.5V
 
   
 
   
 
  o Once we find the "sweet spot" fix settings of field, guard, and
 
  o Once we find the "sweet spot" fix settings of field, guard, and
Line 37: Line 38:
  
  
'''Run -- BRICK IN'''
+
'''Run -- BRICK IN''' (Thick as a brick)
  
o With the canonical settings.  Positions (reckoned in mm) ''x'':  50, 25, 0 ; ''y'':  2, 0, -2,
+
o With the canonical settings.  Positions (reckoned in mm) ''x'':  50, 25, 0 ; ''y'':  2, 0, -2,
  
  
 
'''SWAP METALICA and PLASTICA'''.   
 
'''SWAP METALICA and PLASTICA'''.   
  
o Repeat measurements for efficiency and charge/evt.
+
o Repeat measurements for efficiency and charge/evt.
 +
 
 +
''Increase current into cell to see if we can see the second ionization peak in the first paddle.''

Latest revision as of 20:06, 5 January 2008

Run Plan.

Setup.

Set coincidence gate of two paddles to fall within 15-20 ns

Verify that scalers are set for the paddles: singles from front and back + coincidence.

Verify that gas is flowing into Accelerator Room (bubbles).

The zero point is where the laser beam intersects the feedthrough trumpet in the plane of sense wire 4. The laser beam will first strike the guard wire trumpet. At 30 to 50 Hz, we can get ample statististics for a 2-min run at each setting. This is to be confirmed by the scalers.

x: along wire and y: vertical distance from sense wire 4.


Run -- BRICK OUT

Plateauing

o Move chamber horizontally to 5cm.
o Move chamber up 2mm
o Set:
   sense: +1375 to +1550V in steps of 25V
   field  -688  to -775V  in steps of 12.5V (12 or 13V)
   guard  +688  to +775V  in steps of 12.5V

o Once we find the "sweet spot" fix settings of field, guard, and
   sense wires.  Move chamber to +3mm, 2mm, 1mm, 0, -1mm, -2mm, -3mm. 


Efficiency tests + charge/evt (canonical settings)


o Positions (reckoned in mm) x:  25, 20, 15, 10, 5, 0 ; y:  3, 2, 1, 0, -1, -2, -3.


Run -- BRICK IN (Thick as a brick)

o With the canonical settings.  Positions (reckoned in mm) x:  50, 25, 0 ; y:   2, 0, -2,


SWAP METALICA and PLASTICA.

o Repeat measurements for efficiency and charge/evt.

Increase current into cell to see if we can see the second ionization peak in the first paddle.