Design of a compact and portable space neutron spectrometer based on Monte Carlo

Design of a compact and portable space neutron spectrometer based on Monte Carlo

With the rapid development of space exploration, the detection of space neutron radiation is becoming increasingly important. The currently widely used Bonner sphere spectrometer have drawbacks such as large size and weight, as well as low fault tolerance, when detecting space neutron spectra. This...

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Veröffentlicht in:Applied radiation and isotopes 2024-12, Vol.214, p.111500, Article 111500
Hauptverfasser: Qiao, Yujie, Han, Yafei, Hei, Huimin, Lv, Jinfeng, Shao, Jianxiong, Fang, Kaihong, Wang, Qiang
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Directional neutron measurement
Monte Carlo simulation
Space neutron spectrometer
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container_title Applied radiation and isotopes
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creator Qiao, Yujie
Han, Yafei
Hei, Huimin
Lv, Jinfeng
Shao, Jianxiong
Fang, Kaihong
Wang, Qiang
description With the rapid development of space exploration, the detection of space neutron radiation is becoming increasingly important. The currently widely used Bonner sphere spectrometer have drawbacks such as large size and weight, as well as low fault tolerance, when detecting space neutron spectra. This paper describes in detail a new type of space neutron spectrometer (SNS), which has two different specifications to adapt to the directional and non-directional neutron field environment, and can measure the directional neutron energy spectrum. For the directed neutron field, SNS integrates 12 3He thermal neutron counters (diameter 3 cm: 3, diameter 4 cm: 6, diameter 5 cm: 3) and uses cylindrical polyethylene as a moderator. For non-directed neutron fields, SNS integrates 9 3He thermal neutron counters (diameter 3 cm: 4, diameter 4 cm: 3, diameter 5 cm: 2) located in a single structure made of polyethylene, boron-containing polyethylene and gadolinium. The device is capable of providing a strong directional response in the energy range of thermal neutrons up to 20 MeV, with little sensitivity to neutrons coming from directions other than the axis of the cylinder. The Monte Carlo transport code FLUKA was used to determine the final configuration of the instrument, including the arrangement, number, and position of thermal neutron counters. In addition, the response matrix of the instrument was calculated using FLUKA code. This device can replace traditional Bonner sphere spectrometer for measuring space neutrons, and it also provides reference value for downsized and lightweight neutron spectrometers on the ground. •A space neutron spectrometer has been designed, consisting of a cylindrical moderator.•Two different neutron spectrometer designs have been provided separately for directed and non-directed neutron fields.•This spectrometer combines the features of a traditional Bonner sphere spectrometer while being more compact and portable.
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subjects Directional neutron measurement
Monte Carlo simulation
Space neutron spectrometer
title Design of a compact and portable space neutron spectrometer based on Monte Carlo
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