ID |
Date |
Author |
Subject |
DUT |
Beam Energy |
Beam Setting |
Run Number |
Events |
PhantomType |
PhantomAngle |
13
|
Sat Jul 13 18:52:33 2019 |
Alexander Burker | 2019-07-13f proton CT | Sketch | | TERA Calibration Setup | | | | | |
46
|
Tue Sep 24 11:12:45 2019 |
Alexander Burker | | Sketch | | | | | | | Notes of the planned order of modules within beam (and reserve modules), before switching out the first one |
76
|
Fri Oct 25 18:50:08 2019 |
Alexander Burker | 2019-10-20 Low Flux | Sketch | | | | | | | Spot Sizes Table: SpotsForBeamSettings.csv
Empirics, such as P2, P25, Median, P75 and P98 were obtained directly from the data. These may not be accurate if the beam is larger than the sensor.
To better describe these cases, fit values were obtained with a curve fit to a normal distribution. This can also be inaccurate, as many beam settings aren't normal and the automatic fit might have failed. A goodness-of-fit will be added to each row in the distant future |
77
|
Fri Oct 25 18:56:11 2019 |
Alexander Burker | 2019-07-13f proton CT | Sketch | | | | | none | | Spot sizes table: SpotsForBeamSettings.csv
Empirics, such as P2, P25, Median, P75 and P98 were obtained directly from the data. These may not be accurate if the beam is larger than the sensor.
To better describe these cases, fit values were obtained with a curve fit to a normal distribution. This can also be inaccurate, as many beam settings aren't normal and the automatic fit might have failed. A goodness-of-fit will be added to each row in the distant future |
101
|
Fri Nov 22 10:52:45 2019 |
Alexander Burker | 2019-11-23f proton CT | Sketch | | pCT Setup | | | | | Sketch of the setup for experiment 3, proton CT |
5
|
Sat Jul 13 14:01:36 2019 |
Alexander Burker | 2019-07-13f proton CT | TERA-Cal | 145.4 | EFE, QuadScan SID2 | 3 | 302912 | none | none | Trigger: Coincidence using Scintillators
TERA Linearitätsmessung
timing setting 41
|
6
|
Sat Jul 13 14:13:33 2019 |
Alexander Burker | 2019-07-13f proton CT | TERA-Cal | 100.4 | EFE, QuadScan SID2 | 4 | 531644 | none | none | Trigger: Coincidence using Scintillators
TERA Linearitätsmessung
timing setting 41
|
7
|
Sat Jul 13 15:21:18 2019 |
Alexander Burker | 2019-07-13f proton CT | TERA-Cal | 83 | EFE, QuadScan SID2 | 5 | 195212 | none | none | Trigger: Coincidence using Scintillators
TERA Linearitätsmessung
timing setting 41 |
8
|
Sat Jul 13 15:48:48 2019 |
Alexander Burker | 2019-07-13f proton CT | TERA-Cal | 62.4 | EFE, QuadScan SID2 | 6 | 10384 | none | none | Trigger: Coincidence using Scintillators
TERA Linearitätsmessung
timing setting 41
|
9
|
Sat Jul 13 16:14:00 2019 |
Alexander Burker | 2019-07-13f proton CT | TERA-Cal | 800 | EFE 1us , Degrader10, changed gain orb, betatron10, no chopper | 7 | 18471 | none | none | Trigger: Coincidence using Scintillators
Alignment
timing setting 41
abgebrochen wegen instabilem beam
|
10
|
Sat Jul 13 16:36:32 2019 |
Alexander Burker | 2019-07-13f proton CT | TERA-Cal | 800 | EFE 1us , Degrader20, changed gain orb, no betatron, chopper 60 | 8 | 108089 | none | none | Trigger: Coincidence using Scintillators
Alignment
timing setting 41
|
16
|
Sat Jul 13 20:17:38 2019 |
Felix Ulrich-Pur | | TERA-Cal | 800 | | | | none | | Calibrated Voltage settings
P Voltage: 69V
Q Voltage: 76,8V
R Voltage: 68,65V
S Voltage: 68,9 V |
|