Sat Aug 22 12:12:34 2009, Christian Irmler, BELLE, internal calibration 40 MHz transparent mode (cooling?), cal007, , 22.08.2009 12:10:32 , 22.08.2009 12:49:09
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Belle DUT, intcal
HV=80V, 40 MHz, beam off
1 sample, transparent mode
chiller set to 13 deg.
external 40 MHz clock
there was probably no water flow throught the pipe of the origami module during this run --> must be repeated |
Fri Aug 21 14:18:11 2009, Christian Irmler, BELLE, internal calibration 31.8 MHz transparent mode, cal004, , 21.08.2009 14:21:40, 21.08.2009 15:01:24
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Belle DUT, intcal
HV=80V, 31.8 MHz, no beam
transparent mode
Origami p-side APV 2&3 with reverse readout order |
Fri Aug 21 15:27:08 2009, Christian Irmler, BELLE, internal calibration 31.8 MHz hit mode, cal005, , 21.08.2009 15:34:43, 21.08.2009 16:29:47
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Belle DUT, intcal
HV=80V, 31.8 MHz, no beam
hit mode
Origami p-side APV 2&3 with reverse readout order |
Sat Aug 22 14:46:12 2009, Christian Irmler, BELLE, internal calibration 31.8 MHz transparent mode + cooling, cal009, , 22.08.2009 14:43:55, 22.08.2009 15:22:37
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Belle DUT, intcal
HV=80V, 31.8 MHz, beam off
1 sample, transparent mode
cooling
chiller set to 13 deg.
Since there was no (or to less) water flow through the small pipe of the origami module, all previous runs with cooling must be repeated.
Bypass removed to achieve better watter flow at the module!
Chiller pump is set to 2800 rpm |
Sat Aug 22 13:30:28 2009, Christian Irmler, BELLE, internal calibration 31.8 MHz transparent mode (cooling?), cal008, , 22.08.2009 12:50:48, 22.08.2009 13:29:25
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Belle DUT, intcal
HV=80V, 31.8 MHz, beam off
1 sample, transparent mode
chiller set to 13 deg.
external 31.8 MHz clock
there was probably no water flow throught the pipe of the origami module during this run --> must be repeated |
Wed Aug 19 15:37:37 2009, Christian Irmler, ITE128, internal calibration, cal001, , 15:31:29,
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8 modules, HV=70V, 40MHz, 1 sample
no beam
APV 4,5: inverter off, higher baseline = PAD modules |
Thu Aug 20 10:48:39 2009, Christian Irmler, alignment_beam, internal calibration, cal002, , 20.08.2009 10:49:07, 20.08.2009 10:59:43
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2 alignement modules
location in beam direction: h04-h03
HV=70V, 40MHz, 1 sample
no beam
module 1 (h03) is used w inverter off and higher base line |
Sun Aug 23 17:19:50 2009, Christian Irmler, Pt_ITE512, internal calibration, cal011, , 23.08.2009 16:30:43, 23.08.2009 17:02:14
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Pt: 1 Grad, HV=200V, 0% RH, intcal, beam off
ITE512: HV=70V,
X-Y-Table: x=99.6, y=36 |
Fri Aug 14 19:35:43 2009, Thomas Bergauer, Pt_ITE512, intcal, , , ,
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HV=100V except h05-ITE-512 and h06-ITE-512 (runaway, HV off)
h01-Pt: 10uA
h02-Pt: 1.6uA
3 SiLC DUTs mit je ca. 38nA
h07-ITE-512: 3.77uA
h05-ITE-512: breakthrough
h06-ITE-512: breakthrough |
Thu Aug 20 12:50:59 2009, Christian Irmler, alignment_beam, bottom right on sensor, point 4, run6866, 8467, 20.08.2009 12:51:04, 20.08.2009 13:05:01
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2 alignement modules
location in beam direction: h04-h03
beam in center of sensor
HV=70V, 40MHz, 6 samples
beam on, 120 GeV
module 1 (h03) is used w inverter off and higher base line
XY coordinates: X:43 y:155 (bottom right on sensor in beam direction) |
Thu Aug 20 14:31:29 2009, Christian Irmler, alignment_beam, bottom left on sensor, point 5, run6868, 10600, 20.08.2009 14:36:00, 20.08.2009 14:51:57
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2 alignment modules
location in beam direction: h04-h03
beam in center of sensor
HV=70V, 40MHz, 6 samples
beam on, 120 GeV
module 1 (h03) is used w inverter off and higher base line
XY coordinates: X:57 y:155 (bottom left on sensor in beam direction) |
Thu Aug 20 15:15:33 2009, Christian Irmler, alignment_beam, bottom center on sensor, point 6, run6869, 615 (beam manipulation by students), 20.08.2009 14:56:16 , 20.08.2009 15:14:11
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2 alignment modules
location in beam direction: h04-h03
beam in center of sensor
HV=70V, 40MHz, 6 samples
beam on, 120 GeV
module 1 (h03) is used w inverter off and higher base line
XY coordinates: X:50 y:155 (bottom center on sensor in beam direction) |
Sat Aug 22 11:54:49 2009, Thomas Bergauer, common, beam profile, , , ,
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beam shifted a bit in vertical direction downwards since 21. August 09 evening
Beam configuration:
Beam configuration file: H6b.802 (FM HAD (P0 off, H8=+180) PARLALLEL IN H6B SILC 2008 |
Sat Aug 22 15:12:44 2009, Thomas Bergauer, common, beam profile, , , ,
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playing with TRIM4 in vertical plane (setting to 20A current) shifted beamspot back to center position
Beam configuration:
Beam configuration file: H6b.802 (FM HAD (P0 off, H8=+180) PARLALLEL IN H6B SILC 2008
Rate: 3.35E5 particles/spill (measured with SCINT8 in beamline)
Particle Production Applet
Calculator applet
For +120 Gev/c beam:
Pi+ |
55.67 % |
p |
38.95 % |
K+ |
5.38 % |
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Thu Aug 20 11:23:04 2009, Christian Irmler, alignment_beam, beam in center of sensor w telescope, run004 (6860 telescope), 10600, 20.08.2009 11:09:50 , 20.08.2009 11:25:16
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2 alignement modules
location in beam direction: h04-h03
beam in center of sensor
HV=70V, 40MHz, 6 samples
beam on, 120 GeV
module 1 (h03) is used w inverter off and higher base line
XY coordinates: X:50 y:141.3 (center- center, point 1) |
Tue Aug 25 09:00:51 2009, Thomas Bergauer, , beam conditions, , , ,
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manually changed TRIM3, TRIM4 and TRIM6 |
Thu Aug 20 19:12:23 2009, Manfred Valentan, alignment_laser, background mesurement with laser OFF, laser002, 10000, 20.08.2009 19:10:09, 20.08.2009 19:11:57
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Thu Aug 20 19:56:21 2009, Manfred Valentan, alignment_laser, background mesurement with laser OFF, laser006, 10k, 20.08.2009 19:54:04, 20.08.2009 19:55:38
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Wed Aug 19 15:41:17 2009, Wolfgang Kiesenhofer, SiLC, angle scan templates, , , , 13x
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Linie am rechten Seitenrand (in der Vorschau unten leider nicht gut zu sehen) sollte mit dem rechten Rand der Basisplatte abschließen (bezogen auf die Beam Richtung). |
Fri Jul 17 14:03:21 2009, Stephan Hänsel, , What to measure, , , ,
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Origami
Testbeam08 Module
- Anglescan
Pt Modules (2Stück - je 2 Sensoren):
Anglescan
- einzelne module (auch als "stub" (fixer Abstand zwischen ihnen) ?)
wichtig: brauchen wir 2 Testbeam08 module um 90° verdreht für höheninformation??? (sensoren in den Pt-modulen sind nicht 100%ig parallel - MESSEN!)
Optical Modules:(DAUER ca 18 Stunden)
- tests in box mit laserbeam (laser auf anderer Höhe al beam?!? - sonst geht der beam durch den Laser)
ITE Modules:
- 8 ter stack: (2 Testbeam08 module quer + 2 x 1stmetal128 + 2 x 2nd metal 128 + 2 x normal128)
- 2ndmetal512 module 3 stück bauen und im beam versetzt einbauen parasitär bei den spanier-modulen)
zusätliche ideen:
- CMS-Tracker slice (2Pt + 2 optische + 3 2ndmetal512 hintereinander in unterschiedlichen winkeln um einen tracker-slice zu simulieren - CMS-layout !?!)
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