ELOG testbeam-SPS10

Modul B2Micron_2826_1_Baby4, DUT EINGESCHRAENKT, TRACKING

p-side: Hybrid 45
APV0: beide Randstreifen schlecht
APV1: Streifen 0 schlecht
APV3: beide Randstreifen etwas schlechter, nicht schlimm

n-side: Hybrid 36
APV4: 0, 9, 40, 79-85, 97, 102, 124 Sensorfehler?
APV5: 0-30 vereinzelt schlechte Streifen, 115-128 Bonds beruehren

ALS DUT AUGENZUDRUECKEN GEEIGNET!
FUER TRACKING GEEIGNET!

Attachment 1: hardrun_single_2826_1_type4_pednoise_apv0.png

Attachment 2: hardrun_single_2826_1_type4_pednoise_apv1.png

Attachment 3: hardrun_single_2826_1_type4_pednoise_apv2.png

Attachment 4: hardrun_single_2826_1_type4_pednoise_apv3.png

Attachment 5: hardrun_single_2826_1_type4_pednoise_apv4.png

Attachment 6: hardrun_single_2826_1_type4_pednoise_apv5.png

Thu Sep 23 16:22:33 2010

Modul B2Micron_2826_1_Baby3, TRACKING

p-side: Hybrid 44
alles ok

n-side: Hybrid 34
APV4: zur Gaenze schlecht, APV-Fehler?
APV5: beide Randstreifen schlecht

FUER TRACKING GEEIGNET!

Attachment 1: hardrun_single_2826_1_type3_pednoise_apv0.png

Attachment 2: hardrun_single_2826_1_type3_pednoise_apv1.png

Attachment 3: hardrun_single_2826_1_type3_pednoise_apv2.png

Attachment 4: hardrun_single_2826_1_type3_pednoise_apv3.png

Attachment 5: hardrun_single_2826_1_type3_pednoise_apv4.png

Attachment 6: hardrun_single_2826_1_type3_pednoise_apv5.png

Thu Sep 23 16:23:07 2010

Modul B2Micron_2826_1_Baby2, DUT (eingeschraenkt) & TRACKING

p-side: Hybrid 43
APV3: Streifen 9 schlecht

n-side: Hybrid 33
APV4: 0-10 andere Bond-Parameter?, 28&29 erhoehtes noise
APV5: 111-128: 4 schlechte Streifen + common mode correction?

ALS DUT GEEIGNET!
FUER TRACKING GEEIGNET!

Attachment 1: hardrun_2826_1_type2_pednoise_apv0.png

Attachment 2: hardrun_2826_1_type2_pednoise_apv1.png

Attachment 3: hardrun_2826_1_type2_pednoise_apv2.png

Attachment 4: hardrun_2826_1_type2_pednoise_apv3.png

Attachment 5: hardrun_2826_1_type2_pednoise_apv4.png

Attachment 6: hardrun_2826_1_type2_pednoise_apv5.png

Fri Sep 24 12:09:32 2010

gds-file of Micron wafer

Attachment 1: WaferMicron30.gds

Attachment 2: DSSD_layerproperties.lyp

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Mon Sep 27 15:39:33 2010

PI-XY Table

M-521.dd: (links/rechts)

downstream rechts => pos. limit [0]

downstream links => neg. limit [207]

----------------------

M-511.dd: (oben/unten)

oben [102]

unten [0]

----------------------

M-060.dg: (rotation)

parallel beam [7,5]

-------------------------------------------

Remote Control:

lokal ssh tunnel starten:
ssh -g -C -L5959:zenpixelw:5900 eudet@eudetmac001.cern.ch

danach mit "Chicken of the VNC" (von lokalem Mac) VNC auf localhost (port 5959).

Mon Sep 27 15:41:28 2010

Szintillatoren

1: breit (1)

2: schmal (2)

3: breit (4)

4: schmal (8)

AND aus beiden breiten: 5

AND aus beiden schmalen: 10

Mon Sep 27 15:42:09 2010

TLU: wir stecken auf DUT 3

TLUControl.exe ist auf zenpixell3 unter /home/eudet/eudaq/bin

TLUControl.exe -d 14 -a 12

-dXX Mask for DUT:
1   abgeschnittenes Dummykabel
2   EUDRB hinten
4   EUDRB vorne
8   DUT3(wir)
-t100 internal trigger
-aXX Mask for Szintis:
1   4 mm (front)
2   4 mm (front)
4   9 mm (back)
8   9 mm (back)

Mon Sep 27 18:54:47 2010

XY Position

center position: 55/40/277,5

Tue Sep 28 14:38:24 2010

Christian Irmler

Temperature sensors Belle stack

PicoLogic TC-08 temperature sensor assignment Belle stack:

Sensor type: K

channel 1: Origami_mod1_in
channel 2: Origami_mod1_out
channel 3: Origami_mod2_in
channel 4: Origami_mod2_out
channel 5: Micron_wedge_mod1_p
channel 6: Micron_wedge_mod1_n
channel 7: Micron_wedge_mod2_p
channel 8: Micron_wedge_mod2_n

The cooling pipes of the two Origami modules and that of the Micron modules are connected in series, respectively.

Tue Sep 28 16:50:31 2010

serial connection chiller

Der chiller braucht ein gekreuztes serielles Kabel!!

Tue Sep 28 22:09:39 2010

Markus Friedl

Temperature sensors Belle stack

PicoLogic TC-08 temperature sensor assignment Belle stack:

Sensor type: K

channel 1: Origami_mod1_in
channel 2: Origami_mod1_out
channel 3: Origami_mod2_out (swapped with 4) - label not changed
channel 4: Origami_mod2_in (swapped with 3) - label not changed
channel 5: Micron_wedge_mod1_p
channel 6: Micron_wedge_mod1_n
channel 7: Micron_wedge_mod2_p
channel 8: Micron_wedge_mod2_n

The cooling pipes of the two Origami modules are connected in series, respectively.

Wed Sep 29 18:53:05 2010

XY Positions

center position: 113/47/7.5

top left (direction jura): 121/53.5/7.5

bottom right (direction saleve): 105/40.5/7.5

Thu Sep 30 10:56:34 2010

Christian Irmler

XY Position and Slow Control

Room numbers

Room and telefone numbers.

Name	Building	Room	Tel.
Bergi	38	418	70 418 or 162471 (mobile)
Markus	41	021	60 021
Manfred	38	404	70 404
Erik	38	463	70 463
Immanuel	38	313	70 313
Chrisu	39	324	79 324
Marko	39	007	79 007
Paqui	38	107	70 107

Sat Oct 2 15:24:00 2010

Erik Huemer

ITE

center position: 119/48/187,5

Attachment 1: ITE128_SlowControl_FirstRun.png

Sun Oct 3 16:23:20 2010

Erik Huemer

XY/R Position

centerposition: 119/43/187,5

27 grad: 214,5

Mon Oct 4 16:29:36 2010

Christian Irmler

beam settings

beam settings optimized by beamline operator

wire champer display fixed

Attachment 1: beamprofile_run042.gif

Attachment 2: beamsettings_run042.jpg

Wed Oct 6 10:15:26 2010

Marko Dragicevic

XY Positions After Irradiation

center position: 119/50/(7.5)

top left (direction jura, bottom right on sensor): 127/56.5/7.5

bottom right (direction saleve, top left on sensor): 111/43.5/7.5

Wed Oct 6 23:02:09 2010

Marko Dragicevic

Beam Configuration

Beam Settings and Profile on 5.10.2010 - 17:00h

Saved as: H6B.801

Attachment 1: BeamProfile.gif

Attachment 2: BeamMagnets.gif

Attachment 3: BeamColli.gif

101

Fri Oct 8 23:22:32 2010

Schnittwinkel barrel vs. slanted

17deg acceptance => Schnittwinkel barrel option = 90-17 = 73deg -----> rotary table 80.5

layer zusätzlich slanted um Winkel alpha => Schnittwinkel = 73 - alpha

slant angles: layer 4: 11.9deg => Schnittwinkel 61.1deg       -----> rotary table 68.6
                     layer 5: 17.2deg => Schnittwinkel 55.8deg       -----> rotary table 63.3
                     layer 6: 21.1deg => Schnittwinkel 51.9deg       -----> rotary table 59.4

Im Vergleich mit senkrechtem Durchgang der Teilchen erwarte ich eine Vergrößerung der cluster width um den Faktor tan(Schnittwinkel):

slant layer 4: 1.81
slant layer 5: 1.47
slant layer 6: 1.28
barrel: 3.27

107

Sat Oct 9 18:56:35 2010