Monte Carlo and experimental evaluation of BC-454 for use as a multienergy neutron detector

Monte Carlo and experimental evaluation of BC-454 for use as a multienergy neutron detector

A boron-substituted plastic scintillator has been evaluated for use as a multienergy neutron detector in the Navy RADIAC Development Program. Monte Carlo codes were run for a 1 in. diameter*1 in. long scintillator and a 2 in. diameter*2 in. long scintillator. Additional calculations were run with ea...

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Veröffentlicht in:IEEE Transactions on Nuclear Science (Institute of Electrical and Electronics Engineers); (USA) 1990-06, Vol.37 (3), p.1351-1358
Hauptverfasser: McElhaney, S.A., Bauer, M.L., Chiles, M.M., Emmett, M.B., Todd, J.H.
Format: Artikel
Sprache:eng
Schlagworte:
430200 - Particle Accelerators- Beam Dynamics, Field Calculations, & Ion Optics
440100 - Radiation Instrumentation
654003 - Radiation & Shielding Physics- Neutron Interactions with Matter
Absorption
ACCELERATORS
Boron
BORON CARBIDES
BORON COMPOUNDS
CARBIDES
CARBON COMPOUNDS
DATA
Detectors
Electrons
Exact sciences and technology
EXPERIMENTAL DATA
INFORMATION
INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY
Instruments, apparatus, components and techniques common to several branches of physics and astronomy
Laboratories
LINEAR ACCELERATORS
MATERIALS TESTING
MEASURING INSTRUMENTS
MONTE CARLO METHOD
Monte Carlo methods
NATIONAL ORGANIZATIONS
NEUTRON DETECTORS
Neutrons
NUCLEAR PHYSICS AND RADIATION PHYSICS
NUMERICAL DATA
ORNL
PARTICLE ACCELERATORS
PHOSPHORS
PHOTOMULTIPLIERS
PHOTOTUBES
Physics
PLASTIC SCINTILLATORS
Plastics
PROTON RECOIL DETECTORS
Protons
RADIATION DETECTORS
TESTING
US AEC
US DOE
US ERDA
US ORGANIZATIONS
X- and γ-ray instruments and techniques
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Zusammenfassung:A boron-substituted plastic scintillator has been evaluated for use as a multienergy neutron detector in the Navy RADIAC Development Program. Monte Carlo codes were run for a 1 in. diameter*1 in. long scintillator and a 2 in. diameter*2 in. long scintillator. Additional calculations were run with each scintillator encased in 2 in. of polyethylene moderator. Response curves for neutron sensitivity as a function of energy were plotted from these calculations. Results show a close approximation between the analytically modeled response and the response obtained from a commercially available multienergy neutron detector. The scintillators also were evaluated experimentally for comparison with Monte Carlo results. Each scintillator was coupled to a photomultiplier tube and subjected to neutron irradiation. Results indicate that the experimental configuration used was rejecting proton recoil events
ISSN:0018-9499
1558-1578
DOI:10.1109/23.57387