基于反角白光中子源次级质子的探测器标定

Wei Jiang; Hao Yu Jiang; Han Yi; Rui Rui Fan; Zeng Qi Cui; Kang Sun; Guo Hui Zhang; Jing Yu Tang; Zhi Jia Sun; Chang Jun Ning; Ke Qing Gao; Qi An; Huai Yong Bai; Jie Bao; Yu Bao; Ping Cao; Hao Lei Chen; Qi Ping Chen; Yong Hao Chen; Yu Kai Chen; Zhen Chen; Chang Qing Feng; Min Hao Gu; Chang Cai Han; Zi Jie Han; Guo Zhu He; Yong Cheng He; Yang Hong; Han Xiong Huang; Wei Ling Huang; Xi Ru Huang; Xiao Lu Ji; Xu Yang Ji; Zhi Jie Jiang; Han Tao Jing; Ling Kang; Ming Tao Kang; Bo Li; Chao Li; Jia Wen Li; Lun Li; Qiang Li; Xiao Li; Yang Li; Rong Liu; Shu Bin Liu; Xing Yan Liu; Guang Yuan Luan; Qi Li Mu; Bin Bin Qi; Jie Ren; Zhi Zhou Ren; Xi Chao Ruan; Zhao Hui Song; Ying Peng Song; Hong Sun; Xiao Yang Sun; Zhi Xin Tan; Hong Qing Tang; Xin Yi Tang; Bin Bin Tian; Li Jiao Wang; Peng Cheng Wang; Qi Wang; Tao Feng Wang; Zhao Hui Wang; Jie Wen; Zhong Wei Wen; Qing Biao Wu; Xiao Guang Wu; Xuan Wu; Li Kun Xie; Yi Wei Yang; Li Yu; Tao Yu; Yong Ji Yu; Lin Hao Zhang; Qi Wei Zhang; Xian Peng Zhang; Yu Liang Zhang; Zhi Yong Zhang; Yu Bin Zhao; Lu Ping Zhou; Zu Ying Zhou; Dan Yang Zhu; Ke Jun Zhu; Peng Zhu

doi:10.7498/aps.70.20201823

基于反角白光中子源次级质子的探测器标定

Wei Jiang
, Hao Yu Jiang
, Han Yi
, Rui Rui Fan^*
, Zeng Qi Cui
, Kang Sun
, Guo Hui Zhang
, Jing Yu Tang
, Zhi Jia Sun
, Chang Jun Ning
, Ke Qing Gao
, Qi An
, Huai Yong Bai
, Jie Bao
, Yu Bao
, Ping Cao
, Hao Lei Chen
, Qi Ping Chen
, Yong Hao Chen
, Yu Kai Chen

Zhen Chen, Chang Qing Feng, Min Hao Gu, Chang Cai Han, Zi Jie Han, Guo Zhu He, Yong Cheng He, Yang Hong, Han Xiong Huang, Wei Ling Huang, Xi Ru Huang, Xiao Lu Ji, Xu Yang Ji, Zhi Jie Jiang, Han Tao Jing, Ling Kang, Ming Tao Kang, Bo Li, Chao Li, Jia Wen Li, Lun Li, Qiang Li, Xiao Li, Yang Li, Rong Liu, Shu Bin Liu, Xing Yan Liu, Guang Yuan Luan, Qi Li Mu, Bin Bin Qi, Jie Ren, Zhi Zhou Ren, Xi Chao Ruan, Zhao Hui Song, Ying Peng Song, Hong Sun, Xiao Yang Sun, Zhi Xin Tan, Hong Qing Tang, Xin Yi Tang, Bin Bin Tian, Li Jiao Wang, Peng Cheng Wang, Qi Wang, Tao Feng Wang, Zhao Hui Wang, Jie Wen, Zhong Wei Wen, Qing Biao Wu, Xiao Guang Wu, Xuan Wu, Li Kun Xie, Yi Wei Yang, Li Yu, Tao Yu, Yong Ji Yu, Lin Hao Zhang, Qi Wei Zhang, Xian Peng Zhang, Yu Liang Zhang, Zhi Yong Zhang, Yu Bin Zhao, Lu Ping Zhou, Zu Ying Zhou, Dan Yang Zhu, Ke Jun Zhu, Peng Zhu

^*此作品的通讯作者

物理学院

CAS - Institute of High Energy Physics
Spallation Neutron Source Science Center
Peking University
University of Science and Technology of China
University of Chinese Academy of Sciences
University of Science and Technology of China
China National Nuclear Corporation
China Academy of Engineering Physics
Northwest Institute of Nuclear Technology

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

At present, there exist few proton-beam terminals for the detector calibration in the world. Meanwhile, most of these terminals provide monoenergetic protons. Back-n white neutron source from China Spallation Neutron Source(CSNS) was put into operation in 2018. Based on the white neutron flux ranging from 0.5 eV to 200 MeV from the CSNS Back-n white neutron source, continuous-energy protons involved in a wide energy spectrum can be acquired from the ¹H(n, el) reaction. Adopting this method, a new research platform for researches such as proton calibration is realized at CSNS. As hydrogen exists as gas at normal temperature and pressure, in the selecting of the proton-converting target, the hydrogen-rich compounds are preferential considered. Considering the reaction cross sections of the ¹H(n, el), ¹²C(n, p)¹²B, ¹²C(n, d)¹¹B, ¹²C(n, t)¹⁰B, ¹²C(n, ³He)¹⁰Be, ¹²C(n, α)⁹Be and ¹H(n, γ)²H, polyethylene and polypropylene are suitable for serving as targets in this research. Based on a 3U PXIe, digitizers with 1 GSps sampling rate and 12 bit resolution are utilized to digitize and record the output signals of telescopes. The time and amplitude information of each signal are extracted from its recorded waveform. Proton fluxes can be calculated by using the neutron energy spectrum and the cross section of the ¹H(n, el) reaction. Using the γ-flash event as the starting time of the time-of-flight (TOF) and the time information of signal in detector as the stopping time, the kinematic energy of each secondary proton can be deduced from the TOF and the angle of the detector. A calibration experiment on three charged particle telescopes, with each telescope consisting of a silicon detector and a CsI(Tl) detector, is carried out on this research platform. The readout methods of the CsI(Tl) detectors in these three telescopes are different. In the calibration experiment, ΔE-E two-dimensional spectra and amplitude-E_p two-dimensional spectra of these telescopes are obtained. Through comparing these particle identification spectra, the SiPM is chosen as the signal readout method for CsI(Tl) detectors in the charged particle telescopes. These researches provide experimental evidence for the construction of the charged particle telescope at Back-n, and also illustrate the feasibility of wide-energy spectrum proton calibration based on the Back-n white neutron source.

投稿的翻译标题	Detector calibration based on secondary protons of Back-n white neutron source
源语言	繁体中文
文章编号	082901
期刊	Wuli Xuebao/Acta Physica Sinica
卷	70
期	8
DOI	https://doi.org/10.7498/aps.70.20201823
出版状态	已出版 - 20 4月 2021

关键词

H(n, el) reaction
Back-n white neutron source
Detector
Proton calibration

访问文件

10.7498/aps.70.20201823

其它文件与链接

链接到 Scopus 的出版物

引用此

Jiang, W., Jiang, H. Y., Yi, H., Fan, R. R., Cui, Z. Q., Sun, K., Zhang, G. H., Tang, J. Y., Sun, Z. J., Ning, C. J., Gao, K. Q., An, Q., Bai, H. Y., Bao, J., Bao, Y., Cao, P., Chen, H. L., Chen, Q. P., Chen, Y. H., ... Zhu, P. (2021). 基于反角白光中子源次级质子的探测器标定. Wuli Xuebao/Acta Physica Sinica, 70(8), 文章 082901. https://doi.org/10.7498/aps.70.20201823

@article{c1c53752cadd4580aad5ede21fc334d8,

title = "基于反角白光中子源次级质子的探测器标定",

abstract = "At present, there exist few proton-beam terminals for the detector calibration in the world. Meanwhile, most of these terminals provide monoenergetic protons. Back-n white neutron source from China Spallation Neutron Source(CSNS) was put into operation in 2018. Based on the white neutron flux ranging from 0.5 eV to 200 MeV from the CSNS Back-n white neutron source, continuous-energy protons involved in a wide energy spectrum can be acquired from the 1H(n, el) reaction. Adopting this method, a new research platform for researches such as proton calibration is realized at CSNS. As hydrogen exists as gas at normal temperature and pressure, in the selecting of the proton-converting target, the hydrogen-rich compounds are preferential considered. Considering the reaction cross sections of the 1H(n, el), 12C(n, p)12B, 12C(n, d)11B, 12C(n, t)10B, 12C(n, 3He)10Be, 12C(n, α)9Be and 1H(n, γ)2H, polyethylene and polypropylene are suitable for serving as targets in this research. Based on a 3U PXIe, digitizers with 1 GSps sampling rate and 12 bit resolution are utilized to digitize and record the output signals of telescopes. The time and amplitude information of each signal are extracted from its recorded waveform. Proton fluxes can be calculated by using the neutron energy spectrum and the cross section of the 1H(n, el) reaction. Using the γ-flash event as the starting time of the time-of-flight (TOF) and the time information of signal in detector as the stopping time, the kinematic energy of each secondary proton can be deduced from the TOF and the angle of the detector. A calibration experiment on three charged particle telescopes, with each telescope consisting of a silicon detector and a CsI(Tl) detector, is carried out on this research platform. The readout methods of the CsI(Tl) detectors in these three telescopes are different. In the calibration experiment, ΔE-E two-dimensional spectra and amplitude-Ep two-dimensional spectra of these telescopes are obtained. Through comparing these particle identification spectra, the SiPM is chosen as the signal readout method for CsI(Tl) detectors in the charged particle telescopes. These researches provide experimental evidence for the construction of the charged particle telescope at Back-n, and also illustrate the feasibility of wide-energy spectrum proton calibration based on the Back-n white neutron source.",

keywords = "H(n, el) reaction, Back-n white neutron source, Detector, Proton calibration",

author = "Wei Jiang and Jiang, \{Hao Yu\} and Han Yi and Fan, \{Rui Rui\} and Cui, \{Zeng Qi\} and Kang Sun and Zhang, \{Guo Hui\} and Tang, \{Jing Yu\} and Sun, \{Zhi Jia\} and Ning, \{Chang Jun\} and Gao, \{Ke Qing\} and Qi An and Bai, \{Huai Yong\} and Jie Bao and Yu Bao and Ping Cao and Chen, \{Hao Lei\} and Chen, \{Qi Ping\} and Chen, \{Yong Hao\} and Chen, \{Yu Kai\} and Zhen Chen and Feng, \{Chang Qing\} and Gu, \{Min Hao\} and Han, \{Chang Cai\} and Han, \{Zi Jie\} and He, \{Guo Zhu\} and He, \{Yong Cheng\} and Yang Hong and Huang, \{Han Xiong\} and Huang, \{Wei Ling\} and Huang, \{Xi Ru\} and Ji, \{Xiao Lu\} and Ji, \{Xu Yang\} and Jiang, \{Zhi Jie\} and Jing, \{Han Tao\} and Ling Kang and Kang, \{Ming Tao\} and Bo Li and Chao Li and Li, \{Jia Wen\} and Lun Li and Qiang Li and Xiao Li and Yang Li and Rong Liu and Liu, \{Shu Bin\} and Liu, \{Xing Yan\} and Luan, \{Guang Yuan\} and Mu, \{Qi Li\} and Qi, \{Bin Bin\} and Jie Ren and Ren, \{Zhi Zhou\} and Ruan, \{Xi Chao\} and Song, \{Zhao Hui\} and Song, \{Ying Peng\} and Hong Sun and Sun, \{Xiao Yang\} and Tan, \{Zhi Xin\} and Tang, \{Hong Qing\} and Tang, \{Xin Yi\} and Tian, \{Bin Bin\} and Wang, \{Li Jiao\} and Wang, \{Peng Cheng\} and Qi Wang and Wang, \{Tao Feng\} and Wang, \{Zhao Hui\} and Jie Wen and Wen, \{Zhong Wei\} and Wu, \{Qing Biao\} and Wu, \{Xiao Guang\} and Xuan Wu and Xie, \{Li Kun\} and Yang, \{Yi Wei\} and Li Yu and Tao Yu and Yu, \{Yong Ji\} and Zhang, \{Lin Hao\} and Zhang, \{Qi Wei\} and Zhang, \{Xian Peng\} and Zhang, \{Yu Liang\} and Zhang, \{Zhi Yong\} and Zhao, \{Yu Bin\} and Zhou, \{Lu Ping\} and Zhou, \{Zu Ying\} and Zhu, \{Dan Yang\} and Zhu, \{Ke Jun\} and Peng Zhu",

note = "Publisher Copyright: {\textcopyright} 2021 Chinese Physical Society.",

year = "2021",

month = apr,

day = "20",

doi = "10.7498/aps.70.20201823",

language = "繁体中文",

volume = "70",

journal = "Wuli Xuebao/Acta Physica Sinica",

issn = "1000-3290",

publisher = "Chinese Physical Society and Institute of Physics, Chinese Academy of Sciences",

number = "8",

}

Jiang, W, Jiang, HY, Yi, H, Fan, RR, Cui, ZQ, Sun, K, Zhang, GH, Tang, JY, Sun, ZJ, Ning, CJ, Gao, KQ, An, Q, Bai, HY, Bao, J, Bao, Y, Cao, P, Chen, HL, Chen, QP, Chen, YH, Chen, YK, Chen, Z, Feng, CQ, Gu, MH, Han, CC, Han, ZJ, He, GZ, He, YC, Hong, Y, Huang, HX, Huang, WL, Huang, XR, Ji, XL, Ji, XY, Jiang, ZJ, Jing, HT, Kang, L, Kang, MT, Li, B, Li, C, Li, JW, Li, L, Li, Q, Li, X, Li, Y, Liu, R, Liu, SB, Liu, XY, Luan, GY, Mu, QL, Qi, BB, Ren, J, Ren, ZZ, Ruan, XC, Song, ZH, Song, YP, Sun, H, Sun, XY, Tan, ZX, Tang, HQ, Tang, XY, Tian, BB, Wang, LJ, Wang, PC, Wang, Q, Wang, TF, Wang, ZH, Wen, J, Wen, ZW, Wu, QB, Wu, XG, Wu, X, Xie, LK, Yang, YW, Yu, L, Yu, T, Yu, YJ, Zhang, LH, Zhang, QW, Zhang, XP, Zhang, YL, Zhang, ZY, Zhao, YB, Zhou, LP, Zhou, ZY, Zhu, DY, Zhu, KJ & Zhu, P 2021, '基于反角白光中子源次级质子的探测器标定', Wuli Xuebao/Acta Physica Sinica, 卷 70, 号码 8, 082901. https://doi.org/10.7498/aps.70.20201823

TY - JOUR

T1 - 基于反角白光中子源次级质子的探测器标定

AU - Jiang, Wei

AU - Jiang, Hao Yu

AU - Yi, Han

AU - Fan, Rui Rui

AU - Cui, Zeng Qi

AU - Sun, Kang

AU - Zhang, Guo Hui

AU - Tang, Jing Yu

AU - Sun, Zhi Jia

AU - Ning, Chang Jun

AU - Gao, Ke Qing

AU - An, Qi

AU - Bai, Huai Yong

AU - Bao, Jie

AU - Bao, Yu

AU - Cao, Ping

AU - Chen, Hao Lei

AU - Chen, Qi Ping

AU - Chen, Yong Hao

AU - Chen, Yu Kai

AU - Chen, Zhen

AU - Feng, Chang Qing

AU - Gu, Min Hao

AU - Han, Chang Cai

AU - Han, Zi Jie

AU - He, Guo Zhu

AU - He, Yong Cheng

AU - Hong, Yang

AU - Huang, Han Xiong

AU - Huang, Wei Ling

AU - Huang, Xi Ru

AU - Ji, Xiao Lu

AU - Ji, Xu Yang

AU - Jiang, Zhi Jie

AU - Jing, Han Tao

AU - Kang, Ling

AU - Kang, Ming Tao

AU - Li, Bo

AU - Li, Chao

AU - Li, Jia Wen

AU - Li, Lun

AU - Li, Qiang

AU - Li, Xiao

AU - Li, Yang

AU - Liu, Rong

AU - Liu, Shu Bin

AU - Liu, Xing Yan

AU - Luan, Guang Yuan

AU - Mu, Qi Li

AU - Qi, Bin Bin

AU - Ren, Jie

AU - Ren, Zhi Zhou

AU - Ruan, Xi Chao

AU - Song, Zhao Hui

AU - Song, Ying Peng

AU - Sun, Hong

AU - Sun, Xiao Yang

AU - Tan, Zhi Xin

AU - Tang, Hong Qing

AU - Tang, Xin Yi

AU - Tian, Bin Bin

AU - Wang, Li Jiao

AU - Wang, Peng Cheng

AU - Wang, Qi

AU - Wang, Tao Feng

AU - Wang, Zhao Hui

AU - Wen, Jie

AU - Wen, Zhong Wei

AU - Wu, Qing Biao

AU - Wu, Xiao Guang

AU - Wu, Xuan

AU - Xie, Li Kun

AU - Yang, Yi Wei

AU - Yu, Li

AU - Yu, Tao

AU - Yu, Yong Ji

AU - Zhang, Lin Hao

AU - Zhang, Qi Wei

AU - Zhang, Xian Peng

AU - Zhang, Yu Liang

AU - Zhang, Zhi Yong

AU - Zhao, Yu Bin

AU - Zhou, Lu Ping

AU - Zhou, Zu Ying

AU - Zhu, Dan Yang

AU - Zhu, Ke Jun

AU - Zhu, Peng

PY - 2021/4/20

Y1 - 2021/4/20

N2 - At present, there exist few proton-beam terminals for the detector calibration in the world. Meanwhile, most of these terminals provide monoenergetic protons. Back-n white neutron source from China Spallation Neutron Source(CSNS) was put into operation in 2018. Based on the white neutron flux ranging from 0.5 eV to 200 MeV from the CSNS Back-n white neutron source, continuous-energy protons involved in a wide energy spectrum can be acquired from the 1H(n, el) reaction. Adopting this method, a new research platform for researches such as proton calibration is realized at CSNS. As hydrogen exists as gas at normal temperature and pressure, in the selecting of the proton-converting target, the hydrogen-rich compounds are preferential considered. Considering the reaction cross sections of the 1H(n, el), 12C(n, p)12B, 12C(n, d)11B, 12C(n, t)10B, 12C(n, 3He)10Be, 12C(n, α)9Be and 1H(n, γ)2H, polyethylene and polypropylene are suitable for serving as targets in this research. Based on a 3U PXIe, digitizers with 1 GSps sampling rate and 12 bit resolution are utilized to digitize and record the output signals of telescopes. The time and amplitude information of each signal are extracted from its recorded waveform. Proton fluxes can be calculated by using the neutron energy spectrum and the cross section of the 1H(n, el) reaction. Using the γ-flash event as the starting time of the time-of-flight (TOF) and the time information of signal in detector as the stopping time, the kinematic energy of each secondary proton can be deduced from the TOF and the angle of the detector. A calibration experiment on three charged particle telescopes, with each telescope consisting of a silicon detector and a CsI(Tl) detector, is carried out on this research platform. The readout methods of the CsI(Tl) detectors in these three telescopes are different. In the calibration experiment, ΔE-E two-dimensional spectra and amplitude-Ep two-dimensional spectra of these telescopes are obtained. Through comparing these particle identification spectra, the SiPM is chosen as the signal readout method for CsI(Tl) detectors in the charged particle telescopes. These researches provide experimental evidence for the construction of the charged particle telescope at Back-n, and also illustrate the feasibility of wide-energy spectrum proton calibration based on the Back-n white neutron source.

AB - At present, there exist few proton-beam terminals for the detector calibration in the world. Meanwhile, most of these terminals provide monoenergetic protons. Back-n white neutron source from China Spallation Neutron Source(CSNS) was put into operation in 2018. Based on the white neutron flux ranging from 0.5 eV to 200 MeV from the CSNS Back-n white neutron source, continuous-energy protons involved in a wide energy spectrum can be acquired from the 1H(n, el) reaction. Adopting this method, a new research platform for researches such as proton calibration is realized at CSNS. As hydrogen exists as gas at normal temperature and pressure, in the selecting of the proton-converting target, the hydrogen-rich compounds are preferential considered. Considering the reaction cross sections of the 1H(n, el), 12C(n, p)12B, 12C(n, d)11B, 12C(n, t)10B, 12C(n, 3He)10Be, 12C(n, α)9Be and 1H(n, γ)2H, polyethylene and polypropylene are suitable for serving as targets in this research. Based on a 3U PXIe, digitizers with 1 GSps sampling rate and 12 bit resolution are utilized to digitize and record the output signals of telescopes. The time and amplitude information of each signal are extracted from its recorded waveform. Proton fluxes can be calculated by using the neutron energy spectrum and the cross section of the 1H(n, el) reaction. Using the γ-flash event as the starting time of the time-of-flight (TOF) and the time information of signal in detector as the stopping time, the kinematic energy of each secondary proton can be deduced from the TOF and the angle of the detector. A calibration experiment on three charged particle telescopes, with each telescope consisting of a silicon detector and a CsI(Tl) detector, is carried out on this research platform. The readout methods of the CsI(Tl) detectors in these three telescopes are different. In the calibration experiment, ΔE-E two-dimensional spectra and amplitude-Ep two-dimensional spectra of these telescopes are obtained. Through comparing these particle identification spectra, the SiPM is chosen as the signal readout method for CsI(Tl) detectors in the charged particle telescopes. These researches provide experimental evidence for the construction of the charged particle telescope at Back-n, and also illustrate the feasibility of wide-energy spectrum proton calibration based on the Back-n white neutron source.

KW - H(n, el) reaction

KW - Back-n white neutron source

KW - Detector

KW - Proton calibration

UR - https://www.scopus.com/pages/publications/85105060926

U2 - 10.7498/aps.70.20201823

DO - 10.7498/aps.70.20201823

M3 - 文章

AN - SCOPUS:85105060926

SN - 1000-3290

VL - 70

JO - Wuli Xuebao/Acta Physica Sinica

JF - Wuli Xuebao/Acta Physica Sinica

IS - 8

M1 - 082901

ER -

基于反角白光中子源次级质子的探测器标定

摘要

关键词

访问文件

其它文件与链接

指纹

引用此