Difference between revisions of "IAC LeadFlourideCherenkovCrystalTests 5-09"

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o Pulse count: 1412543
 
o Pulse count: 1412543
  
o Block 100 will be used as a reference for transmission measurements for the rest of the week.
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o Block 100 will be used as a reference for transmission measurements for the rest of the week. Here is its transmission:
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[[Image:B100averagebeforeexp.jpg | 200 px]]
  
 
o O-scope data: C:\My Computer\Current Normalization Data\20090512\_2-Ch1-0001.dat-_2-Ch1-0843.dat
 
o O-scope data: C:\My Computer\Current Normalization Data\20090512\_2-Ch1-0001.dat-_2-Ch1-0843.dat
 
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2) Irradiation batch 1 (Blocks 15, 27, 109 and 89) removed from hall (7:45 AM) and transmission measured.
 
2) Irradiation batch 1 (Blocks 15, 27, 109 and 89) removed from hall (7:45 AM) and transmission measured.
  
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Axis 3 - -111750 (Vertical)
 
Axis 3 - -111750 (Vertical)
  
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3) Irradiation batch 3:4 new blocks -Blocks 204, 205, 206, 207.
 
3) Irradiation batch 3:4 new blocks -Blocks 204, 205, 206, 207.
  

Revision as of 21:44, 12 May 2009

http://clasweb.jlab.org/wiki/index.php/Hall_A_IAC_Tests


Previous Tests: IAC_LeadFlourideCherenkovCrystalTests

Run Plan

Summary

Task Time Budget
Beam setup 0.5 days
Testing 20 new blocks 2.5 days
Silicon test 1.0 day
Bleaching/Re-irradiation test 0.5-1 day
Testing old blocks 12 blocks/day


Accelerator Settings
beam energy 20 MeV
Rep Rate: 30 Hz
I_peak: 60 mA/pulse
pulse width: 0.1 [math]\mu[/math]s (100 ns)

Day 0

Experiment Set-up Tasks:

1) Translator table -positioned in front of 0 degree exit port and manual operation (50,000/inch).

2) Faraday Cup - positioned at z = 30 cm, clipped (alligator to BNC & grounded), connected to cable C6, terminated into Channel 1 on the scope.

3) Green pick-up loop -Sits freely atop poly blocks in front of exit window with poly spacers between loop and exit window to prevent grounding, connected to cable C7, terminated into channel 3 (?) on scope (re-check this on morning of Day 1).

4) Fluke multimeter & camera set-up for real-time temperature monitoring - camera positioned and focused, connected via cable C5 to DAQ monitor.

5) Glass plate -unable to locate small size plate on Day 0, will look again morning of Day 1. Beam spot size measurement not crucial given properly operating beam scan software.

6) Beam scan -Brian is troubleshooting this software, will show Adrianne how to use the morning of Day 1.


Day 1

Beam setup & 2-3 hours

11:25 AM -

Beamscan9.6x9.6.5.09.JPG

12:00 PM -

Beamscan9.6x9.6cm.JPG


1) Shoot glass plate at 30cm from exit port

2) Temperature test with 1 old block

Accelerator Settings
beam energy 20 MeV
Rep Rate: 100 Hz
I_peak: 111 mA/pulse
pulse width: 0.1 [math]\mu[/math]s (100 ns)

23 deg C at start 33 max at finish -1 hour 40 min beam on.

Total count on Ortec counter -361931

Oscope data: C:\My Computer\Current Normalization\20090511\pbf2irradtemprun-Ch1-003.dat - pbf2irradtemprun-int.meas


3) Irradiation batch 1:4 old ``reference blocks -Blocks 15, 27, 109 and 89. Here is the transmission before irradiation:

B15averagebeforeexp.jpg B39averagebeforeexp.jpg B109averagebeforeexp.jpg

Accelerator Settings
beam energy 20 MeV
Rep Rate: 100 Hz
I_peak: 111 mA/pulse
pulse width: 0.1 [math]\mu[/math]s (100 ns)

2.5 hours beam on.

O-scope data: C:\My Computer\Current Normalization\20090511\pbf2irrad1strunday1_1-Ch1.meas-9999.dat

Day 2

1) Irradiation batch 2:4 new blocks

Blocks 200, 201, 202, 203.

Beam on: 9:15 AM

Accelerator Settings
beam energy 20 MeV
Rep Rate: 100 Hz
I_peak: 111 mA/pulse
pulse width: 0.1 [math]\mu[/math]s (100 ns)

o Beam off at 1:00 PM.

o Pulse count: 1412543

o Block 100 will be used as a reference for transmission measurements for the rest of the week. Here is its transmission:

B100averagebeforeexp.jpg

o O-scope data: C:\My Computer\Current Normalization Data\20090512\_2-Ch1-0001.dat-_2-Ch1-0843.dat


2) Irradiation batch 1 (Blocks 15, 27, 109 and 89) removed from hall (7:45 AM) and transmission measured.

Translator table origin @ exit window:

Axis 1 - 0 (beamline)

Axis 2 - -14925 (Horizontal)

Axis 3 - -111750 (Vertical)


3) Irradiation batch 3:4 new blocks -Blocks 204, 205, 206, 207.

Accelerator Settings
beam energy 20 MeV
Rep Rate: 100 Hz
I_peak: 111 mA/pulse
pulse width: 0.1 [math]\mu[/math]s (100 ns)

o Beam on 1:09 PM

o 2:19 PM -no optical bleach yet. Block 89 shows gains in transmission after 2.5 hour irradiation.

o Beam off at 2:23 PM

Pulse count: 455378.

O-scope data: C:\My Computer\Current Normalization Data\20090512\_2-Ch1--0845.dat-0853.dat

o Beam on 2:28 PM


Irradiation batch \#4:&4 new blocks

Irradiation batch \#5:&4 new blocks

Irradiation {\bf batch \#2}:&4 new blocks

Bleaching of batch \#2:&24 hours

Day 3

Accelerator Settings
beam energy 20 MeV
Rep Rate: 30 Hz
I_peak: 60 mA/pulse
pulse width: 0.1 [math]\mu[/math]s (100 ns)


1.) Irradiate Silicon detector for 2-3 hours

Minimum ionizing particles deposit 0.19 MeV of energy [math](3\cdot 10^{-14}[/math]/,J). If we want to irradiate [math]10^9/20[/math] particles/s, that makes [math]1.5\cdot 10^{-6}[/math]J/s. Taking into account the strip size and the heat capacity of Si (19.8 J/mol/K), this makes a temperature variation of 0.045 K/min (negligeable).


2.) Irradiation PB crystal batch \#2 then Bleaching of batch #2 for 38 hours

Day 4

Irradiation batch \#6:&4 new blocks\\ Irradiation batch \#7:&4 new blocks\\ Irradiation batch \#8:&4 new blocks\\

Day 5

Irradiation {\bf batch \#2}\\ \multicolumn{2}{l}{Silicon test}\\ Day 6 -- Bleaching of batch \#2:&24h\\

5/11/09

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