6LiF:ZnS(Ag) neutron detector performance optimized using waveform recordings and ROC curves

K. Pritchard; C. F. Majkrzak; N. C. Maliszewskyj; A. Osovizky; J. Ziegler; E. Binkley; P. Tsai; N. Hadad; M. Jackson; C. Hurlbut; G. M. Baltic

doi:10.1109/TNS.2019.2953875

⁶LiF:ZnS(Ag) neutron detector performance optimized using waveform recordings and ROC curves

K. Pritchard, C. F. Majkrzak, N. C. Maliszewskyj, A. Osovizky, J. Ziegler, E. Binkley, P. Tsai, N. Hadad, M. Jackson, C. Hurlbut, G. M. Baltic

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

8 Scopus citations

Abstract

We used Gaussian separation and receiver operating characteristic (ROC) curves to optimize the neutron sensitivity and gamma rejection of an ultra-thin ⁶LiF:ZnS(Ag)-scintillator-based neutron detector paired with a silicon photomultiplier (SiPM). We recorded the waveforms while operating the detector in a monochromatic cold neutron beam and in the presence of isotopic ¹³⁷Cs and ⁶⁰Co gamma sources. We used a two-window charge comparison (CC) pulse-shape discrimination (PSD) technique to distinguish the neutron capture events from other types of signals. By feeding the recorded waveforms through variants of this algorithm, it was possible to optimize the duration of the integration windows [(0-100 ns) for the prompt window and (100-2300 ns)] for the delayed window. We then computed the detector's ROC curve from waveform recordings and compared that with the experimental performance. We also used this procedure to compare a series of detector configurations to select the optimal bias voltage for the SiPM photosensor.

Original language	English
Article number	8902007
Pages (from-to)	414-421
Number of pages	8
Journal	IEEE Transactions on Nuclear Science
Volume	67
Issue number	1
DOIs	https://doi.org/10.1109/TNS.2019.2953875
State	Published - 1 Jan 2020
Externally published	Yes

Keywords

Chromatic analysis neutron diffractometer or reflectometer (CANDOR)
LiF:ZnS(Ag)
charge comparison (CC)
neutron detector
pattern recognition
pulse shape
radiation detector
receiver operating characteristic (ROC) curve
silicon photomultiplier (SiPM)
support vector machine (SVM)

ASJC Scopus subject areas

Nuclear and High Energy Physics
Nuclear Energy and Engineering
Electrical and Electronic Engineering

Access to Document

10.1109/TNS.2019.2953875

Cite this

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title = "6LiF:ZnS(Ag) neutron detector performance optimized using waveform recordings and ROC curves",

abstract = "We used Gaussian separation and receiver operating characteristic (ROC) curves to optimize the neutron sensitivity and gamma rejection of an ultra-thin 6LiF:ZnS(Ag)-scintillator-based neutron detector paired with a silicon photomultiplier (SiPM). We recorded the waveforms while operating the detector in a monochromatic cold neutron beam and in the presence of isotopic 137Cs and 60Co gamma sources. We used a two-window charge comparison (CC) pulse-shape discrimination (PSD) technique to distinguish the neutron capture events from other types of signals. By feeding the recorded waveforms through variants of this algorithm, it was possible to optimize the duration of the integration windows [(0-100 ns) for the prompt window and (100-2300 ns)] for the delayed window. We then computed the detector's ROC curve from waveform recordings and compared that with the experimental performance. We also used this procedure to compare a series of detector configurations to select the optimal bias voltage for the SiPM photosensor.",

keywords = "Chromatic analysis neutron diffractometer or reflectometer (CANDOR), LiF:ZnS(Ag), charge comparison (CC), neutron detector, pattern recognition, pulse shape, radiation detector, receiver operating characteristic (ROC) curve, silicon photomultiplier (SiPM), support vector machine (SVM)",

author = "K. Pritchard and Majkrzak, {C. F.} and Maliszewskyj, {N. C.} and A. Osovizky and J. Ziegler and E. Binkley and P. Tsai and N. Hadad and M. Jackson and C. Hurlbut and Baltic, {G. M.}",

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year = "2020",

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doi = "10.1109/TNS.2019.2953875",

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AU - Pritchard, K.

AU - Majkrzak, C. F.

AU - Maliszewskyj, N. C.

AU - Osovizky, A.

AU - Ziegler, J.

AU - Binkley, E.

AU - Tsai, P.

AU - Hadad, N.

AU - Jackson, M.

AU - Hurlbut, C.

AU - Baltic, G. M.

PY - 2020/1/1

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N2 - We used Gaussian separation and receiver operating characteristic (ROC) curves to optimize the neutron sensitivity and gamma rejection of an ultra-thin 6LiF:ZnS(Ag)-scintillator-based neutron detector paired with a silicon photomultiplier (SiPM). We recorded the waveforms while operating the detector in a monochromatic cold neutron beam and in the presence of isotopic 137Cs and 60Co gamma sources. We used a two-window charge comparison (CC) pulse-shape discrimination (PSD) technique to distinguish the neutron capture events from other types of signals. By feeding the recorded waveforms through variants of this algorithm, it was possible to optimize the duration of the integration windows [(0-100 ns) for the prompt window and (100-2300 ns)] for the delayed window. We then computed the detector's ROC curve from waveform recordings and compared that with the experimental performance. We also used this procedure to compare a series of detector configurations to select the optimal bias voltage for the SiPM photosensor.

AB - We used Gaussian separation and receiver operating characteristic (ROC) curves to optimize the neutron sensitivity and gamma rejection of an ultra-thin 6LiF:ZnS(Ag)-scintillator-based neutron detector paired with a silicon photomultiplier (SiPM). We recorded the waveforms while operating the detector in a monochromatic cold neutron beam and in the presence of isotopic 137Cs and 60Co gamma sources. We used a two-window charge comparison (CC) pulse-shape discrimination (PSD) technique to distinguish the neutron capture events from other types of signals. By feeding the recorded waveforms through variants of this algorithm, it was possible to optimize the duration of the integration windows [(0-100 ns) for the prompt window and (100-2300 ns)] for the delayed window. We then computed the detector's ROC curve from waveform recordings and compared that with the experimental performance. We also used this procedure to compare a series of detector configurations to select the optimal bias voltage for the SiPM photosensor.

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KW - pattern recognition

KW - pulse shape

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KW - receiver operating characteristic (ROC) curve

KW - silicon photomultiplier (SiPM)

KW - support vector machine (SVM)

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