Proton Calorimetry/Experimental Runs/2018/Mar22

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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

DSC_0001.jpg

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.

DSC_0001.jpg

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
  • 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.

DSC_0038.jpg

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.

DSC_0039.jpg

Image.jpg

40 f/3.2 2 s Low 21 frames 36 MeV 10 nA 20 mm Beam on.

DSC_0040.jpg

Image.jpg

41 f/3.2 5 s N/A N/A 36 MeV 10 nA 20 mm Beam on.

DSC_0041.jpg

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.

DSC_0042.jpg

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.

DSC_0043.jpg

Image.jpg

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.

DSC_0044.jpg

Image.jpg

45 f/3.2 10 s N/A N/A 36 MeV 5 - 10 nA 20 mm Beam on.

DSC_0045.jpg

N/A
46 f/3.2 5 s Low 21 frames 36 MeV 20 nA 20 mm Beam on.

DSC_0046.jpg

Image.jpg

47 f/4 5 s N/A N/A 36 MeV 20 nA 20 mm Beam on.

DSC_0047.jpg

N/A
48 f/5 5 s N/A N/A 36 MeV 15 nA 20 mm Beam on.

DSC_0048.jpg

N/A
49 f/5 5 s Low 21 frames 36 MeV 50 nA 20 mm Beam on. Both camera and sensor saturated.

DSC_0049.jpg

Image.jpg

50 f/8 5 s N/A N/A 36 MeV 50 nA 20 mm Beam on. Variable beam during acquisition.

DSC_0048.jpg

N/A
51 f/8 5 s N/A N/A 36 MeV 50 nA 20 mm Beam on. Stable beam.

DSC_0051.jpg

N/A
52 f/8 5 s High 21 frames 36 MeV 50 nA 20 mm Beam on.

DSC_0052.jpg

Image.jpg

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.

DSC_0053.jpg

Image.jpg

54 f/8 5 s High 21 frames 36 MeV 100 nA 20 mm Beam on.

DSC_0054.jpg

Image.jpg

55 f/8 2 s N/A N/A 36 MeV 90 nA 20 mm Beam on.

DSC_0055.jpg

N/A
56 f/8 2 s High 21 frames 36 MeV 200 nA 20 mm Beam on.

DSC_0056.jpg

Image.jpg

57 f/8 1 s N/A N/A 36 MeV 200 nA 20 mm Beam on. Sensor near saturation.

DSC_0057.jpg

N/A
58 f/8 1 s N/A N/A 36 MeV 300 nA 20 mm Beam on. Variable beam during acquisition.

DSC_0058.jpg

N/A
59 f/8 1 s High 21 frames 36 MeV 300 nA 20 mm Beam on. Stable beam. Sensor saturation occurs.

DSC_0059.jpg

Image.jpg

60 f/8 1 s High 21 frames 36 MeV 450 nA 20 mm Beam on.

DSC_0060.jpg

Image.jpg

61 f/8 1/2 s N/A N/A 36 MeV 450 nA 20 mm Beam on.

DSC_0061.jpg

N/A
62 f/8 1/2 s N/A N/A 36 MeV 470 nA 20 mm Beam on.

DSC_0062.jpg

N/A
63 f/13 1/2 s N/A N/A 36 MeV 600 nA 20 mm Beam on.

DSC_0063.jpg

N/A
65 f/13 1/2 s Low 21 frames 36 MeV 1.1 uA 20 mm Beam on.

DSC_0065.jpg

Image.jpg

66 f/13 1/2 s N/A N/A 36 MeV 1 uA 20 mm Beam on. Low beam during acquisition.

DSC_0066.jpg

N/A
67 f/13 1/2 s N/A N/A 36 MeV 1 uA 20 mm Beam on. Stable beam.

DSC_0067.jpg

N/A
68 f/8 1 s High 21 frames 36 MeV 200 nA 20 mm Beam on.

DSC_0068.jpg

Image.jpg

69 f/3.2 5 s High 21 frames 36 MeV 13 nA 20 mm Beam on. Some beam captured on DSLR image.

DSC_0069.jpg

Image.jpg

70 f/3.2 5 s Low 21 frames 36 MeV 15 nA 20 mm Beam on.

DSC_0070.jpg

Image.jpg

71 f/3.2 2 s N/A N/A 36 MeV 15 nA 20 mm Beam on.

DSC_0071.jpg

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.

DSC_0072.jpg

Image.jpg

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.

DSC_0073.jpg

Image.jpg

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.

DSC_0074.jpg

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.

DSC_0075.jpg

Image.jpg

76 f/8 1 s Low 21 frames 36 MeV 100 nA 20 mm Beam on. Green film inserted between scintillator stack and sensor.

DSC_0076.jpg

Image.jpg

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.

DSC_0077.jpg

Image.jpg

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.

DSC_0078.jpg

Image.jpg

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.

DSC_0079.jpg

Image.jpg

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.

DSC_0080.jpg

Image.jpg

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.

DSC_0081.jpg

Image.jpg

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.

DSC_0082.jpg

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.

DSC_0083.jpg

Image.jpg

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.

DSC_0084.jpg

Image.jpg

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.

DSC_0085.jpg

Image.jpg

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.

DSC_0086.jpg

Image.jpg

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.

DSC_0087.jpg

Image.jpg

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.

DSC_0088.jpg

Image.jpg

89 f/3.2 5 s N/A N/A 28 MeV 10 nA 20 mm Beam on.

DSC_0089.jpg

N/A
90 f/3.2 1 s Low 21 frames 28 MeV 30 nA 20 mm Beam on.

DSC_0090.jpg

Image.jpg

91 f/3.2 1 s High 21 frames 28 MeV 30 nA 20 mm Beam on.

DSC_0091.jpg

Image.jpg

92 f/8 1 s High 21 frames 28 MeV 300 nA 20 mm Beam on.

DSC_0092.jpg

Image.jpg

93 f/8 1 s High 21 frames 28 MeV 250 nA 20 mm Beam on.

DSC_0093.jpg

Image.jpg

End of test beam.
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