Diamond based neutron detector in high temperature environments of 200 °C

Journal of Instrumentation Pub Date : 2024-07-01 DOI:10.1088/1748-0221/19/07/p07015
J. Melbinger, Christina Weiss, E. Griesmayer, E. Jericha, Dieter Hainz
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Abstract

The stability of the neutron response function and the detection efficiency of a sCVD diamond detector in the temperature range up to 200 °C are demonstrated in this paper. A CIVIDEC neutron detector was simultaneously heated with an AmBe neutron source. This enabled the measurement of the spectrum of the deposited energy in the diamond sensor, i.e. the neutron response function of the detector and the detection rate, which in combination represents the neutron flux as a function of temperature. The measured temperature stability of the neutron response function of the detector and detection rate demonstrates the suitability of sCVD diamond detectors for harsh environments, such as encountered in geodetic applications and nuclear fusion research.
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200 °C 高温环境下的金刚石中子探测器
本文展示了 sCVD 金刚石探测器在高达 200 °C 的温度范围内的中子响应函数稳定性和探测效率。CIVIDEC 中子探测器与 AmBe 中子源同时加热。这样就可以测量金刚石传感器中沉积能量的频谱,即探测器的中子响应函数和探测率,两者结合起来就代表了中子通量与温度的函数关系。探测器中子响应函数和探测率的温度稳定性测量结果表明,sCVD 金刚石探测器适用于恶劣环境,如大地测量应用和核聚变研究中遇到的环境。
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Journal of Instrumentation
Journal of Instrumentation
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