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
1: breit (1)
2: schmal (2)
3: breit (4)
4: schmal (8)
AND aus beiden breiten: 5
AND aus beiden schmalen: 10
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)
center position: 55/40/277,5
same as run001 after shifting x by 48mm
103 / 30 / 277.5 ? unsure after crash of xy stage PC
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.
Der chiller braucht ein gekreuztes serielles Kabel!!
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.
center position: 113/47/7.5
top left (direction jura): 121/53.5/7.5
bottom right (direction saleve): 105/40.5/7.5
Room and telefone numbers.
79 324
center position: 119/48/187,5
centerposition: 119/43/187,5
27 grad: 214,5
beam settings optimized by beamline operator
wire champer display fixed
angle scan Origami 1 and Micron wedge 1 HV = 100V chiller set to 14°C
angle: 45° axis 1: 92.4 (horizontal) axis 2: 35 (vertical) axis 3: -37.5 (rotary table)
telescope run: 20151
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
Beam Settings and Profile on 5.10.2010 - 17:00h
Saved as: H6B.801
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
eudetmac001.cern.ch
path is /Volumes/Data/eudet/Data/cern_2010_sept_silc_apvdaq (Vienna system)
and /Volumes/Data/eudet/Data/cern_2010_sept_silc_alibava (Santander system)
;-)
genau das gleiche wollte ich auch gerade schreiben!