Tue Jun 3 14:59:14 2008, Markus Friedl, SiLC, APVDAQ + telescope (0-sup) *** angle-scan ***, run2834, 10000, 03.06.2008 14:56:32, 03.06.2008 15:15:37
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SiLC beam test - CERN SPS June 2008
Angle scan, HV=100V, alpha = 40 degrees
8 modules, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Angle scan with pattern mask |
Tue Jun 3 15:39:57 2008, Markus Friedl, SiLC, APVDAQ + telescope (0-sup) *** angle-scan ***, run2835, 10000, 03.06.2008 15:36:47, 03.06.2008 15:55:34
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SiLC beam test - CERN SPS June 2008
Angle scan, HV=100V, alpha = 50 degrees
8 modules, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Angle scan with pattern mask |
Tue Jun 3 16:14:26 2008, Markus Friedl, SiLC, APVDAQ + telescope (0-sup) *** angle-scan ***, run2836, 10000, 03.06.2008 16:13:18, 03.06.2008 16:33:20
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SiLC beam test - CERN SPS June 2008
Angle scan, HV=100V, alpha = 60 degrees
8 modules, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Angle scan with pattern mask
Please note that there are 8 modules read out in this run, but the last one (#7) is placed outside the beam and
hence does not provide any meaningful data. |
Tue Jun 3 16:53:20 2008, Markus Friedl, SiLC, APVDAQ + telescope (0-sup) *** angle-scan ***, run2837, 20000, 03.06.2008 16:49:40, 03.06.2008 17:26:49
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SiLC beam test - CERN SPS June 2008
Angle scan, HV=100V, alpha = 0 degrees
8 modules, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Angle scan with pattern mask |
Tue Jun 3 18:17:47 2008, Markus Friedl, SiLC, APVDAQ + telescope (0-sup), run2838, 478159, 03.06.2008 18:38:07, 04.06.2008 10:41:51
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SiLC beam test - CERN SPS June 2008
HV=100V, xy "telescope"
8 modules, 40MHz, 6 samples, position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
this is a run where modules 0,2,4,6 are in normal position, while modules 1,3,5,7 are rotated by 90 deg
(counterclockwise as seen by the beam) and flipped (back<->forth) in order to achieve the minimum spacing
(~10.3mm) between "corresponding" x and y planes. |
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