geant4 simulation of neutrons interaction with gem-foil and gas gabriele croci, matteo alfonsi,...
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![Page 1: Geant4 Simulation of Neutrons interaction with GEM-foil and gas Gabriele Croci, Matteo Alfonsi, Serge Duarte Pinto, Leszek Ropelewski, Marco Villa (CERN)](https://reader036.vdocument.in/reader036/viewer/2022062720/56649f1a5503460f94c2feaa/html5/thumbnails/1.jpg)
Geant4 Simulation of Neutrons interaction with GEM-foil and
gasGabriele Croci, Matteo Alfonsi, Serge
Duarte Pinto, Leszek Ropelewski, Marco Villa (CERN)
5th RD51 Collaboration Meeting, Freiburg, 24-27 May 2010
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Outline• Simulation of 5.5 MeV neutron processes in a
GEM detector in order to understand better the measurements performed with a Triple GEM detector in 5.5 MeV neutron beam in Athens
• Short description of the measurements• Description of Geant4 simulation
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Experimental Setup• Triple GEM RD51 tracking detector 10 x 10 cm2 active
area powered using a resistor divider• Standard GEM Foils (140 µm pitch, 50 µm hole diameter)• Gas Mixture: Ar/CO2 70%/30%
• Full plane readout• Pulse Height measurements: ORTEC 142 IH preamplifier and
ORTEC 450 research amplifier
• Current Measurements (only on the anode): Keithley PicoAmp 6517 (1 pA resolution)
• 5.5 MeV neutrons from 2.8 MeV deuteron beam collision on a deuteron target
• Two different neutron fluxes3
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Picture of the experimental setup
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Neutron Beam
Deuteron Accelerator
Deuteron Target
Triple GEM Detector
54 cm
Beam Opening
Θ = 90 deg
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Neutrons and Iron SpectraDetector HV = 4200 VDetector Gain = 5000
Neutrons Flux = 2.2*105 Hz/cm2
Neutrons Energy = 5.5 MeVDistance Source-Detector = 23 cm
Photons coming fromactivation of surrounding materials
Neutrons conversion
Saturation ofORTEC Preamplifier
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Simulation parameters• 5.5 MeV Neutrons • Gas volume of dimensions
20cm*20cm*12mm• Gas used Ar/C02 70%/30%• 50 µm thick Kapton foil copper
clad (5 µm) on both sides put in the middle of the gas volume (representing GEM foil w/o holes)
• 5 µm Cu Foil at the two sides of the gas volume, representing Drift and Anode electrode
• Sensitive Detector: Gas Volume• Physics list QGSP_BERT_HP
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Energy Deposition: First Results & Comparison with measurements
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Detector HV = 4200 VDetector Gain = 5000
Neutrons Flux = 2.2*105 Hz/cm2
Neutrons Energy = 5.5 MeVDistance Source-Detector = 23 cm
Photons coming fromactivation of surrounding materials (only??)
Neutrons conversion
Saturation ofORTEC Preamplifier
G4
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Understanding of the physics processes
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TotalprotonsAr40 (elastic)
Deposited Energy
Cou
nts
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A list of (some of ) the recognized physics processes coming from primary neutrons
• Ar40
• γ
• n + γ
• p
• C12
• n + Ar40
• O16
• n + C12
• n + Cu63 + γ
• P + γ
• He4 + γ
• p + Ni63
• n + Ar36
• Cu63
• Cu65
• We want now to understand the places where the conversions come from:– We suspect that the protons
are created from interaction with solid materials (Copper or Kapton)
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The proton is able to escape, enter the gas and produce ionization
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Origin Positions of particles generated by primary neutrons
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zoom
KaptonCo
pp
er
Co
pp
er
GasGas
Kapton + copper
Copper Copper
Kapton + copper
Protons
Argon40
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Conclusions
• The physics processes and the shape of the PH spectrum were correctly explained using the simulation
• The different contribution in the spectrum have been recognized
• The simulation gives the possibility to understand the place where the different particles are produced
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