Proton Calorimetry/Experimental Runs/2018/Mar22: Difference between revisions
SimonJolly (talk | contribs) (Created page with "Beam tests of the UCL plastic scintillator range calorimeter. __TOC__ == Thursday 8th of March 2018 == === Pre-data Taking Information and Notes === * The tests were carried ou...") |
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== Thursday | == Night of Thursday 22th to Friday 23rd of March 2018 == | ||
=== Pre-data Taking Information and Notes === | === Pre-data Taking Information and Notes === | ||
* Data was acquired with the DSLR camera and the ISDI CMOS sensor. | |||
* The average background value per pixel for the sensor is ~ 2500. The sensor pixel dimensions are 1030 x 1536. The '''sensor frame rate''' was always set to '''25 frames per second'''. | |||
* Data was acquired with the DSLR camera and the ISDI CMOS sensor | * NO optical grease between scintillator and sensor. | ||
* Scintillator stack arrangement: 15 x 2 mm, 15 x 2.6 mm and 1 x 3 mm sheets used: In ascending order from the back of the scintillator to the front/beam. Except for sheet number 21 (2mm) which is placed at the end (away end from the beam) of the stack because of a crack in the sheet. | |||
* | * Folder for DSLR images: digiCamControl/20180322_medaustron | ||
* 6 x 3 mm | * Note: When powering on PC, sensor has to be connected, but unpowered! | ||
* 16383 = saturation pixel number (16 bit x 1 tap) | |||
* Sensor images are always saved as a sequence of 21 Tiff images | |||
* Folder for sensor images: XCAP/data/20180322_medaustron | |||
* | |||
* | |||
* | |||
* | |||
=== Data Taking === | === Data Taking === | ||
{|class="wikitable" | {|class="wikitable" | ||
! | |||
!colspan="3" | DSLR | |||
!colspan="1" | Sensor | |||
!colspan="3" | Beam | |||
!colspan="4" | | |||
|- | |||
!Run number | !Run number | ||
! | !ISO | ||
! | !Aperture | ||
! | !Exposure (s) | ||
! | !Full Well Mode | ||
!Beam Energy | !Intensity (%) | ||
! | !Number of particles/s | ||
!Beam Energy (MeV) | |||
!Test type | |||
!Comments | !Comments | ||
!DSLR Thumbnail | !DSLR Thumbnail | ||
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|- | |- | ||
| 1 || f/ | | 1 || 200 || f/5 || 1s || Low || colspan="3" | N/A || Background || Background run with ND filter || | ||
<div class="image150px" style="text-align: center;"> | <div class="image150px" style="text-align: center;"> | ||
[http://www.hep.ucl.ac.uk/pbt/wikiData/images/Birmingham_Mar2018/Nikon/20180308_bham/DSC_0001.jpg http://www.hep.ucl.ac.uk/pbt/wikiData/images/Birmingham_Mar2018/Nikon/20180308_bham/DSC_0001.jpg] | [http://www.hep.ucl.ac.uk/pbt/wikiData/images/Birmingham_Mar2018/Nikon/20180308_bham/DSC_0001.jpg http://www.hep.ucl.ac.uk/pbt/wikiData/images/Birmingham_Mar2018/Nikon/20180308_bham/DSC_0001.jpg] | ||
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| 2 || f/ | | 2 || 200 || f/5 || 1s || Low || 100% || 1.2 x 1e10/5s || 80.5 || Bragg peak || ND filter in - not enough light passes through filter. Remove! DSLR slightly saturated. 10 spills used for this run. || | ||
<div class="image150px" style="text-align: center;"> | <div class="image150px" style="text-align: center;"> | ||
[http://www.hep.ucl.ac.uk/pbt/wikiData/images/Birmingham_Mar2018/Nikon/20180308_bham/ | [http://www.hep.ucl.ac.uk/pbt/wikiData/images/Birmingham_Mar2018/Nikon/20180308_bham/DSC_0001.jpg http://www.hep.ucl.ac.uk/pbt/wikiData/images/Birmingham_Mar2018/Nikon/20180308_bham/DSC_0001.jpg] | ||
<br /> | <br /> | ||
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Revision as of 22:05, 23 March 2018
Beam tests of the UCL plastic scintillator range calorimeter.
Night of Thursday 22th to Friday 23rd of March 2018
Pre-data Taking Information and Notes
- Data was acquired with the DSLR camera and the ISDI CMOS sensor.
- The average background value per pixel for the sensor is ~ 2500. The sensor pixel dimensions are 1030 x 1536. The sensor frame rate was always set to 25 frames per second.
- NO optical grease between scintillator and sensor.
- Scintillator stack arrangement: 15 x 2 mm, 15 x 2.6 mm and 1 x 3 mm sheets used: In ascending order from the back of the scintillator to the front/beam. Except for sheet number 21 (2mm) which is placed at the end (away end from the beam) of the stack because of a crack in the sheet.
- Folder for DSLR images: digiCamControl/20180322_medaustron
- Note: When powering on PC, sensor has to be connected, but unpowered!
- 16383 = saturation pixel number (16 bit x 1 tap)
- Sensor images are always saved as a sequence of 21 Tiff images
- Folder for sensor images: XCAP/data/20180322_medaustron
Data Taking
DSLR | Sensor | Beam | |||||||||
---|---|---|---|---|---|---|---|---|---|---|---|
Run number | ISO | Aperture | Exposure (s) | Full Well Mode | Intensity (%) | Number of particles/s | Beam Energy (MeV) | Test type | Comments | DSLR Thumbnail | Sensor Thumbnail |
1 | 200 | f/5 | 1s | Low | N/A | Background | Background run with ND filter | N/A | |||
2 | 200 | f/5 | 1s | Low | 100% | 1.2 x 1e10/5s | 80.5 | Bragg peak | ND filter in - not enough light passes through filter. Remove! DSLR slightly saturated. 10 spills used for this run. | N/A |
Friday 9th of March 2018
Pre-data Taking Information and Notes
- The tests were carried out with an energy of 36 MeV and 28 MeV. A Bragg Peak measurement was carried out to confirm the exact beam energy.
- Collimators used: 20 mm diameter.
- PMMA sheets used: 3 mm, 2 mm and 1 mm, taped over the mylar window.
- Data was acquired with the DSLR camera and the ISDI CMOS sensor:
- The average background value per pixel for the sensor is ~ 2500. The sensor pixel dimensions are 1030 x 1536. The sensor frame rate was always set to 25 frames per second.
- The DSLR ISO was always set to 200.
- The light level in order to not saturate the sensor was reduced by placing green and blue see-through sheets in between the sensor and the scintillator stack for some of the tests.
- 8 x 32 mm scintillator sheets were used. The scintillator stack was set up in the following order, starting with the first sheet facing the beam:
- 7, 10, 13, 14, 15, 17, 18, 19
- Optical gel was not used for coupling, the sensor was placed directly on top of the scintillator stack.
- The dose received (as shown on the monitor in the control room) during the full day of measurements was:
- For the 36 MeV beam
- With a 20 mm collimator: 435.5 uC
- With a 20 mm collimator + PMMA sheets: 17.3 uC
- With a 20 mm collimator + films inserted between scintillator stack and sensor: 536.2 uC
- For the 28 MeV beam
- With a 20 mm collimator: 47.7 uC
- For the 36 MeV beam
- There current was variable/unstable throughout the day.
- To calculate the actual dose delivered to the scintillator:
- / 160 -> to convert to proton current
- / (50/ collimator diameter)^2 -> to account for reduction in area due to the collimator
- The directory containing the sensor data is:
/unix/pbt/data/birmingham/mar_2018/EPIX/XCAP/data/20180309_bham
- The directory containing the DSLR data is:
/unix/pbt/data/birmingham/mar_2018/Nikon/20180309_bham
Data Taking
Run number | DSLR Aperture | DSLR Exposure | Sensor Full Well Mode | Sensor Sequence | Beam Energy | Current on Monitor | Collimator Diameter | Comments | DSLR Thumbnail | Sensor Thumbnail |
---|---|---|---|---|---|---|---|---|---|---|
38 | f/3.2 | 2 s | N/A | N/A | N/A | N/A | N/A | Beam off, lid open. Focus check and background picture with white paper for DSLR. | N/A | |
39 | f/3.2 | 2 s | Low | 21 frames | N/A | N/A | N/A | Beam off, lid closed, lights off. Background run. | ||
40 | f/3.2 | 2 s | Low | 21 frames | 36 MeV | 10 nA | 20 mm | Beam on. | ||
41 | f/3.2 | 5 s | N/A | N/A | 36 MeV | 10 nA | 20 mm | Beam on. | N/A | |
42 | f/3.2 | 5 s | N/A | N/A | 36 MeV | 10 nA | 20 mm | Beam on. Sensor realigned after this run to be straighter with respect to scintillator stack. | N/A | |
43 | f/3.2 | 5 s | Low | 21 frames | 36 MeV | 10 nA | 20 mm | Beam on. Sensor realigned after this run to be straighter with respect to scintillator stack. | ||
44 | f/3.2 | 5 s | Low | 21 frames | 36 MeV | 10 nA | 20 mm | Beam on. Sensor realigned after this run to be straighter with respect to scintillator stack. | ||
45 | f/3.2 | 10 s | N/A | N/A | 36 MeV | 5 - 10 nA | 20 mm | Beam on. | N/A | |
46 | f/3.2 | 5 s | Low | 21 frames | 36 MeV | 20 nA | 20 mm | Beam on. | ||
47 | f/4 | 5 s | N/A | N/A | 36 MeV | 20 nA | 20 mm | Beam on. | N/A | |
48 | f/5 | 5 s | N/A | N/A | 36 MeV | 15 nA | 20 mm | Beam on. | N/A | |
49 | f/5 | 5 s | Low | 21 frames | 36 MeV | 50 nA | 20 mm | Beam on. Both camera and sensor saturated. | ||
50 | f/8 | 5 s | N/A | N/A | 36 MeV | 50 nA | 20 mm | Beam on. Variable beam during acquisition. | N/A | |
51 | f/8 | 5 s | N/A | N/A | 36 MeV | 50 nA | 20 mm | Beam on. Stable beam. | N/A | |
52 | f/8 | 5 s | High | 21 frames | 36 MeV | 50 nA | 20 mm | Beam on. | ||
53 | f/8 | 5 s | High | 21 frames | N/A | N/A | N/A | Beam off. Background run for sensor in high full well mode. | ||
54 | f/8 | 5 s | High | 21 frames | 36 MeV | 100 nA | 20 mm | Beam on. | ||
55 | f/8 | 2 s | N/A | N/A | 36 MeV | 90 nA | 20 mm | Beam on. | N/A | |
56 | f/8 | 2 s | High | 21 frames | 36 MeV | 200 nA | 20 mm | Beam on. | ||
57 | f/8 | 1 s | N/A | N/A | 36 MeV | 200 nA | 20 mm | Beam on. Sensor near saturation. | N/A | |
58 | f/8 | 1 s | N/A | N/A | 36 MeV | 300 nA | 20 mm | Beam on. Variable beam during acquisition. | N/A | |
59 | f/8 | 1 s | High | 21 frames | 36 MeV | 300 nA | 20 mm | Beam on. Stable beam. Sensor saturation occurs. | ||
60 | f/8 | 1 s | High | 21 frames | 36 MeV | 450 nA | 20 mm | Beam on. | ||
61 | f/8 | 1/2 s | N/A | N/A | 36 MeV | 450 nA | 20 mm | Beam on. | N/A | |
62 | f/8 | 1/2 s | N/A | N/A | 36 MeV | 470 nA | 20 mm | Beam on. | N/A | |
63 | f/13 | 1/2 s | N/A | N/A | 36 MeV | 600 nA | 20 mm | Beam on. | N/A | |
65 | f/13 | 1/2 s | Low | 21 frames | 36 MeV | 1.1 uA | 20 mm | Beam on. | ||
66 | f/13 | 1/2 s | N/A | N/A | 36 MeV | 1 uA | 20 mm | Beam on. Low beam during acquisition. | N/A | |
67 | f/13 | 1/2 s | N/A | N/A | 36 MeV | 1 uA | 20 mm | Beam on. Stable beam. | N/A | |
68 | f/8 | 1 s | High | 21 frames | 36 MeV | 200 nA | 20 mm | Beam on. | ||
69 | f/3.2 | 5 s | High | 21 frames | 36 MeV | 13 nA | 20 mm | Beam on. Some beam captured on DSLR image. | ||
70 | f/3.2 | 5 s | Low | 21 frames | 36 MeV | 15 nA | 20 mm | Beam on. | ||
71 | f/3.2 | 2 s | N/A | N/A | 36 MeV | 15 nA | 20 mm | Beam on. | N/A | |
72 | f/3.2 | 1 s | Low | 21 frames | 36 MeV - 3 mm PMMA | 30 nA | 20 mm | Beam on. 3 mm of PMMA taped over Mylar window. | ||
73 | f/3.2 | 1 s | Low | 21 frames | 36 MeV - (3 mm + 2 mm PMMA) | 30 nA | 20 mm | Beam on. 3 mm + 2 mm of PMMA taped over Mylar window. | ||
74 | f/3.2 | 1 s | N/A | N/A | 36 MeV - (3 mm + 2 mm PMMA) | 30 nA | 20 mm | Beam on. 3 mm + 2 mm of PMMA taped over Mylar window. | N/A | |
75 | f/3.2 | 1 s | Low | 21 frames | 36 MeV | 25 nA | 20 mm | Beam on. Green film inserted between scintillator stack and sensor. | ||
76 | f/8 | 1 s | Low | 21 frames | 36 MeV | 100 nA | 20 mm | Beam on. Green film inserted between scintillator stack and sensor. | ||
77 | f/8 | 1/2 s | Low | 21 frames | 36 MeV | 500 nA | 20 mm | Beam on. Green film inserted between scintillator stack and sensor. Sensor saturated on low full well mode. | ||
78 | f/8 | 1/2 s | High | 21 frames | 36 MeV | 480 nA | 20 mm | Beam on. Green film inserted between scintillator stack and sensor. Sensor not saturated on high full well mode. | ||
79 | f/13 | 1/2 s | High | 21 frames | 36 MeV | 900 nA | 20 mm | Beam on. Green film inserted between scintillator stack and sensor. Sensor shows some saturation on high full well mode. | ||
80 | f/13 | 1/2 s | High | 21 frames | 36 MeV | 700 nA | 20 mm | Beam on. Green film inserted between scintillator stack and sensor. Sensor saturation occurs. | ||
81 | f/13 | 1/2 s | High | 21 frames | 36 MeV | 1 uA | 20 mm | Beam on. Green + blue films inserted between scintillator stack and sensor. | ||
82 | f/13 | 1/2 s | N/A | N/A | 36 MeV | 1.1 uA | 20 mm | Beam on. Green + blue films inserted between scintillator stack and sensor. | N/A | |
83 | f/13 | 1/2 s | High | 21 frames | 36 MeV | 1.1 uA | 20 mm | Beam on. Green + blue films inserted between scintillator stack and sensor. Some beam captured on DSLR image. | ||
84 | f/3.2 | 1 s | Low | 21 frames | 36 MeV - 2 mm PMMA | 30 nA | 20 mm | Beam on. Green + blue films inserted between scintillator stack and sensor. 2 mm PMMA sheet taped in front of Mylar window. | ||
85 | f/3.2 | 1 s | Low | 21 frames | 36 MeV - 1 mm PMMA | 30 nA | 20 mm | Beam on. Green + blue films inserted between scintillator stack and sensor. 1 mm PMMA sheet taped in front of Mylar window. | ||
86 | f/3.2 | 5 s | Low | 21 frames | 36 MeV | 10 nA | 20 mm | Beam on. All films and PMMA sheets removed. Back to original settings to monitor scintillator damage. | ||
87 | f/3.2 | 5 s | Low | 21 frames | 36 MeV | 10 nA | 20 mm | Beam on. Back to original settings to monitor scintillator damage. | ||
88 | f/3.2 | 5 s | Low | 21 frames | 28 MeV | 10 nA | 20 mm | Beam on. Beam energy reduced to 28 MeV using RF frequency. | ||
89 | f/3.2 | 5 s | N/A | N/A | 28 MeV | 10 nA | 20 mm | Beam on. | N/A | |
90 | f/3.2 | 1 s | Low | 21 frames | 28 MeV | 30 nA | 20 mm | Beam on. | ||
91 | f/3.2 | 1 s | High | 21 frames | 28 MeV | 30 nA | 20 mm | Beam on. | ||
92 | f/8 | 1 s | High | 21 frames | 28 MeV | 300 nA | 20 mm | Beam on. | ||
93 | f/8 | 1 s | High | 21 frames | 28 MeV | 250 nA | 20 mm | Beam on. |