Neutron detection efficiency measurements of organic glass scintillator arrays

J. Balajthy; A. Benin; P. Feng; P. Hausladen; N. R. Myllenbeck; M. Sweany

doi:10.1088/1748-0221/20/05/P05037

Neutron detection efficiency measurements of organic glass scintillator arrays

J. Balajthy
, A. Benin
, P. Feng
, P. Hausladen
, N. R. Myllenbeck
, M. Sweany

Radiation Imaging and Advanced Diagnosti

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

We characterize the neutron detection efficiency of pixelated organic glass scintillator (OGS) arrays manufactured in two ways: an additive method in which the OGS is cast in place in a pixelated mold, and a subtractive method in which the scintillator is first cast as a large block before being cut in bars and bonded together to form the array. The cast-in-place array utilizes a mixture of “bis(9,9-dimethyl-9H-fluoren-2-yl)diphenylsilane” (P2), “tri([1,1'-biphenyl]-4-yl)(phenyl)silane” (PB3), and “4-bis(2-methylstyryl)benzene” (MSB), and 50% by weight of polystyrene is added to the mixture for subtractive manufactured array. We compare the performance of the OGS arrays to that of an EJ-299-33M plastic scintillator array that was manufactured using a subtractive process similar to that of the second OGS array.

Original language	English
Article number	P05037
Journal	Journal of Instrumentation
Volume	20
Issue number	5
DOIs	https://doi.org/10.1088/1748-0221/20/05/P05037
State	Published - May 1 2025

Keywords

Neutron detectors (cold, thermal, fast neutrons)
Neutron radiography
Photon detectors for UV, visible and IR photons (solid-state) (PIN diodes, APDs, Si-PMTs, G-APDs, CCDs, EBCCDs, EMCCDs, CMOS imagers, etc)
Scintillators, scintillation and light emission processes (solid, gas and liquid scintillators)

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10.1088/1748-0221/20/05/P05037

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title = "Neutron detection efficiency measurements of organic glass scintillator arrays",

abstract = "We characterize the neutron detection efficiency of pixelated organic glass scintillator (OGS) arrays manufactured in two ways: an additive method in which the OGS is cast in place in a pixelated mold, and a subtractive method in which the scintillator is first cast as a large block before being cut in bars and bonded together to form the array. The cast-in-place array utilizes a mixture of “bis(9,9-dimethyl-9H-fluoren-2-yl)diphenylsilane” (P2), “tri([1,1'-biphenyl]-4-yl)(phenyl)silane” (PB3), and “4-bis(2-methylstyryl)benzene” (MSB), and 50\% by weight of polystyrene is added to the mixture for subtractive manufactured array. We compare the performance of the OGS arrays to that of an EJ-299-33M plastic scintillator array that was manufactured using a subtractive process similar to that of the second OGS array.",

keywords = "Neutron detectors (cold, thermal, fast neutrons), Neutron radiography, Photon detectors for UV, visible and IR photons (solid-state) (PIN diodes, APDs, Si-PMTs, G-APDs, CCDs, EBCCDs, EMCCDs, CMOS imagers, etc), Scintillators, scintillation and light emission processes (solid, gas and liquid scintillators)",

author = "J. Balajthy and A. Benin and P. Feng and P. Hausladen and Myllenbeck, \{N. R.\} and M. Sweany",

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AU - Balajthy, J.

AU - Benin, A.

AU - Feng, P.

AU - Hausladen, P.

AU - Myllenbeck, N. R.

AU - Sweany, M.

PY - 2025/5/1

Y1 - 2025/5/1

N2 - We characterize the neutron detection efficiency of pixelated organic glass scintillator (OGS) arrays manufactured in two ways: an additive method in which the OGS is cast in place in a pixelated mold, and a subtractive method in which the scintillator is first cast as a large block before being cut in bars and bonded together to form the array. The cast-in-place array utilizes a mixture of “bis(9,9-dimethyl-9H-fluoren-2-yl)diphenylsilane” (P2), “tri([1,1'-biphenyl]-4-yl)(phenyl)silane” (PB3), and “4-bis(2-methylstyryl)benzene” (MSB), and 50% by weight of polystyrene is added to the mixture for subtractive manufactured array. We compare the performance of the OGS arrays to that of an EJ-299-33M plastic scintillator array that was manufactured using a subtractive process similar to that of the second OGS array.

AB - We characterize the neutron detection efficiency of pixelated organic glass scintillator (OGS) arrays manufactured in two ways: an additive method in which the OGS is cast in place in a pixelated mold, and a subtractive method in which the scintillator is first cast as a large block before being cut in bars and bonded together to form the array. The cast-in-place array utilizes a mixture of “bis(9,9-dimethyl-9H-fluoren-2-yl)diphenylsilane” (P2), “tri([1,1'-biphenyl]-4-yl)(phenyl)silane” (PB3), and “4-bis(2-methylstyryl)benzene” (MSB), and 50% by weight of polystyrene is added to the mixture for subtractive manufactured array. We compare the performance of the OGS arrays to that of an EJ-299-33M plastic scintillator array that was manufactured using a subtractive process similar to that of the second OGS array.

KW - Neutron detectors (cold, thermal, fast neutrons)

KW - Neutron radiography

KW - Photon detectors for UV, visible and IR photons (solid-state) (PIN diodes, APDs, Si-PMTs, G-APDs, CCDs, EBCCDs, EMCCDs, CMOS imagers, etc)

KW - Scintillators, scintillation and light emission processes (solid, gas and liquid scintillators)

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DO - 10.1088/1748-0221/20/05/P05037

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SN - 1748-0221

VL - 20

JO - Journal of Instrumentation

JF - Journal of Instrumentation

IS - 5

M1 - P05037

ER -

Neutron detection efficiency measurements of organic glass scintillator arrays

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Keywords

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