A field determination method of D-T neutron source yields based on oxygen prompt gamma rays

A field determination method for small D-T neutron source yield based on the oxygen prompt gamma rays was established. A neutron-gamma transport equation of the determination device was developed. Two yield field determination devices with a thickness of 20 mm and 50 mm were made. The count rates of...

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Published inNuclear engineering and technology Vol. 55; no. 7; pp. 2572 - 2577
Main Authors Zhang, Xiongjie, Tang, Bin, Nian, Geng, Wang, Haitao, Zhang, Lijiao, Zhang, Yan, Chen, Rui, Liu, Zhifeng, Qu, Jinhui
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.07.2023
Elsevier
한국원자력학회
Subjects
D-T neutron source
N-γtransport equation
Neutron yield
Oxygen prompt gamma rays
원자력공학
Oxygen prompt gamma rays
D-T neutron source
N-γtransport equation
Neutron yield
Online AccessGet full text
ISSN1738-5733
2234-358X
DOI10.1016/j.net.2023.03.013

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Abstract A field determination method for small D-T neutron source yield based on the oxygen prompt gamma rays was established. A neutron-gamma transport equation of the determination device was developed. Two yield field determination devices with a thickness of 20 mm and 50 mm were made. The count rates of the oxygen prompt gamma rays were calculated using three energy spectra processing approaches, which were the characteristic peak of 6.13 MeV, the overlapping peak of 6.92 MeV and 7.12 MeV, and the total energy area. The R-square of the calibration curve is better than 94% and the maximum error of the yield test is 5.21%, demonstrating that it is feasible to measure the yield of D-T neutron source by oxygen prompt gamma rays. Additionally,the results meet the requirements for field determination of the conventional D-T neutron source yield.
AbstractList A field determination method for small D-T neutron source yield based on the oxygen prompt gamma rays was established. A neutron-gamma transport equation of the determination device was developed. Two yield field determination devices with a thickness of 20 mm and 50 mm were made. The count rates of the oxygen prompt gamma rays were calculated using three energy spectra processing approaches, which were the characteristic peak of 6.13 MeV, the overlapping peak of 6.92 MeV and 7.12 MeV, and the total energy area. The R-square of the calibration curve is better than 94% and the maximum error of the yield test is 5.21%, demonstrating that it is feasible to measure the yield of D-T neutron source by oxygen prompt gamma rays. Additionally,the results meet the requirements for field determination of the conventional D-T neutron source yield.
A field determination method for small D-T neutron source yield based on the oxygen prompt gamma rays was established. A neutron-gamma transport equation of the determination device was developed. Two yield field determination devices with a thickness of 20 mm and 50 mm were made. The count rates of the oxygen prompt gamma rays were calculated using three energy spectra processing approaches, which were the characteristic peak of 6.13 MeV, the overlapping peak of 6.92 MeV and 7.12 MeV, and the total energy area. The R-square of the calibration curve is better than 94% and the maximum error of the yield test is 5.21%, demonstrating that it is feasible to measure the yield of D-T neutron source by oxygen prompt gamma rays. Additionally,the results meet the requirements for field determination of the conventional D-T neutron source yield. KCI Citation Count: 0
Author Liu, Zhifeng
Zhang, Lijiao
Qu, Jinhui
Wang, Haitao
Zhang, Xiongjie
Nian, Geng
Zhang, Yan
Chen, Rui
Tang, Bin
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Keywords Oxygen prompt gamma rays
D-T neutron source
N-γtransport equation
Neutron yield
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Snippet A field determination method for small D-T neutron source yield based on the oxygen prompt gamma rays was established. A neutron-gamma transport equation of...
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SubjectTerms D-T neutron source
N-γtransport equation
Neutron yield
Oxygen prompt gamma rays
원자력공학
Title A field determination method of D-T neutron source yields based on oxygen prompt gamma rays
URI https://dx.doi.org/10.1016/j.net.2023.03.013
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