Difference between revisions of "Beam Test Jul 27 2012"

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|  run#  || T1 || T2 || Sweep Magnet|| logic || HV-D2L || HV-D1R || Reprate  || start || stop || Int Rate ||comments
 
|  run#  || T1 || T2 || Sweep Magnet|| logic || HV-D2L || HV-D1R || Reprate  || start || stop || Int Rate ||comments
 
|-
 
|-
|  3735  || in || in || out || (DL & GunTrig) & (DR & GunTrig) || 1150V || 1150V || 300-301 || 15:54:24|| :: || 8 events/s||   
+
|  3735  || in || in || out || (DL & GunTrig) & (DR & GunTrig) || 1150V || 1150V || 300-301 || 15:54:24|| 16:11:06 || 9.0200 events/s|| 
 +
|-
 +
|  3736  || in || out || out || (DL & GunTrig) & (DR & GunTrig) || 1150V || 1150V || 300-301 || 15:54:24|| :: ||  events/s||   
 
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Revision as of 22:07, 27 July 2012

Tune

Energy Switch Out (High En)
Solenoid 1 12.4 A
Solenoid 2 7.3 A
Gun Hor -0 A
Gun Ver +0.2 A
Output Hor -0.3 A
Output Ver -0 A
Rep Rate 17
Gun HV 10 (Knob Setting)
Gun Grid Voltage 10 (Knob Setting)
RF frequency 2856.315 MHz
Modulator HV Power Supply 4.19 (Knob Setting)
RF macro Pulse Length (FWHM) 300 ns
Q1 (A) -3
Q2 (A) +0
Q3 (A) +2
Q4 (A) 0
Q5 (A) 0
Q6 (A) 0
Current at FC0 100 mA

Beam Current Calibration of Scint Left

Determine if the Beam Left Scintillator is linear with beam current.


Determine if the Beam Left Scintillator is linear with beam current.

Beam Current Calibration of Scint Left

Determine if the Beam Left Scintillator is linear with beam current.


run# Scope Pics FC1 area nVs Scint L area nVs Scint Left (Ch9) Reprate start stop Int Rate comments
3703 R3703 FC1.png R3703 SCNT L.png [math]1201.1 \pm 10.1[/math] [math]4.4 \pm .3[/math] 1127.75 [math] \pm[/math] .7 100 08:38:24 08:41:52 ( s) 38.4 events/s first measurement at full current
3705 R3704 FC1.png R3704 SCNT L.png [math]776.8 \pm 112[/math] [math]7.26 \pm 4.5[/math] 782.5 [math] \pm[/math] 1 100 09:01:10 09:04:29 ( s) 38.47 events/s cut the current in half
3706 R3706 FC1.pngR3706 SCNT L.png [math]367.7 \pm 2.32[/math] [math]6.5 \pm .34[/math] 239.1 [math] \pm[/math] 0.6 100 09:08:40 09:12:13 ( s) 38 events/s cut the current to its 1/4 th
3707 R3707 FC1.png R3707 SCNT L.png [math]203.1 \pm 0.7[/math] [math]0.2 \pm 1[/math] 100 09:16:19 09:21:24 ( s) 38.5 events/s cut the current to its 1/8 th

1. T1 out, disable D1 (Q4,Q5,Q6 too), send the beam to FC0, take scope image of the area.

2. T1 in, enable D1 (Q4,Q5,Q6 too), bend the beam by 90 deg, take a run with 1000 events.


1.22 nV s /ADC channel

Energy calibration of Scint 1

With T1 ande T2 out, send 1,2,6, and 10 MeV electrons to Scintillator 1 located at the end of the 90 degree beam line

HV=1300


run# Electron Energy (MeV) Attenuation (dB) ADC2
3714 10 27.5 3009
3715 6 27.5 2935
3716 4 27.5 3018


Inserted gun triggers into Scaler channel 2

Resume positron production using 10 MeV eletrons

Insert Gun trigger into VME scaler

Set D2 for 2 MeV

run# T1 T2 Sweep Magnet logic HV-D2L HV-D1R Reprate start stop Int Rate comments
3719 in in out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 11:03:02 11:21:58 4.2 events/s 206540 beam pulses
3720 in in out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 11:29:52 11:44:55 5.069 events/s 181148 beam pulses
3721 in out out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 12:02:31 12:17:32 3.9 events/s 180559 beam pulses
3722 in in out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 12:28:13 12:49:47 5.3933 events/s 268067 beam pulses
3724 in in out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 13:00:34 13:21:44 4.6719 events/s Threshold on the DL is set to 52. it was 29.
3725 in out out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 13:23:03 13:38:04 3.1237 events/s
3726 in in in (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 13:41:55 13:57:00 3.7244 events/s sweeping magnet in

during run 3725 the following were lugged into the TDC

TDC0 = Gun trigger TDC1 = ~95 ns delayed Gun trigger TDC5=N aI Left TDC7 = NaI Right TDC9 = NaI Left (CFD) TDC10 = NaI Right (CFD)

Set D2 for 1 MeV

run# T1 T2 Sweep Magnet logic HV-D2L HV-D1R Reprate start stop Int Rate comments
3727 in in in (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 13:58:53 14:14:01 (908 s) 3.3208 events/s sweeping magnet in
3728 in in out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 14:16:56 14:33:35 (999 s) 4.0302 events/s sweeping magnet out
3729 in out out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 14:34:31 14:50:14 (941 s) 3.2572 events/s
3730 in in out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 14:51:24 15:07:44 (980 s) 4.1088 events/s
3731 in out out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 200 15:08:28 15:26:02 3.1478 events/s

Set D2 for 3 MeV

run# T1 T2 Sweep Magnet logic HV-D2L HV-D1R Reprate start stop Int Rate comments
3735 in in out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 300-301 15:54:24 16:11:06 9.0200 events/s
3736 in out out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 300-301 15:54:24 :: events/s

Rotating Target Simulation

We want to know what happens when the tungsten target on the motor rotates and electron beam misses the target when there is a gap between target(s) .

Dipole magnets and quad magnets are set to 2 MeV positron mode.


run# T1 T2 Sweep Magnet logic HV-D2L HV-D1R Reprate start stop Int Rate comments
3734 out in out (DL & GunTrig) & (DR & GunTrig) 1150V 1150V 300-301 15:37:40 15:52:23 1.1425 events/s

Look for positrons using 6 MeV electrons