Progress in Hexagonal Boron Nitride (h-BN)-Based Solid-State Neutron Detector

Samiul Hasan, Iftikhar Ahmad
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引用次数: 1

Abstract

This article will briefly review the progress of h-BN based solid-state metal semiconductor metal (MSM) neutron detectors. In the last decade, several groups have been working on hexagonal boron nitride (h-BN)-based solid-state neutron detectors. Recently, the detection efficiency of 59% has been reported. Efficient, low-cost neutron detectors made from readily available materials are essential for various applications. Neutron detectors are widely used to detect fissile materials and nuclear power plants for security applications. The most common and widely used neutron detectors are 3He based, which are sometimes bulky, difficult to transport, have high absorption length, need relatively high bias voltage (>1000 V), and have low Q-value (0.764 MeV). In addition, 3He is not a readily available material. Thus, there is a strong need to find an alternative detection material. The 10B isotope has a high neutron absorption cross-section, and it has been tested as a coating on the semiconducting materials. Due to the two-step process, neutron capture through 10B and then electron–hole pair generation in a typical semiconducting material, the efficiency of these devices is not up to the mark. The progress in h-BN based detectors requires a review to envision the further improvement in this technology.
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六方氮化硼(h-BN)基固体中子探测器的研究进展
本文简要介绍了氢氮化硼基固态金属半导体金属(MSM)中子探测器的研究进展。在过去的十年里,几个小组一直在研究基于六方氮化硼(h-BN)的固态中子探测器。最近有报道称,检测效率为59%。由现成材料制成的高效、低成本中子探测器对于各种应用都是必不可少的。中子探测器广泛用于检测裂变材料和核电站的安全应用。最常见和应用最广泛的是基于3He的中子探测器,它们体积大,运输困难,吸收长度高,需要相对高的偏置电压(>1000 V), q值低(0.764 MeV)。此外,3He不是现成的材料。因此,迫切需要找到一种替代检测材料。10B同位素具有较高的中子吸收截面,并已作为半导体材料的涂层进行了测试。在典型的半导体材料中,由于两步过程,通过10B捕获中子,然后产生电子-空穴对,这些设备的效率不达标。氢氮化硼基探测器的进展需要回顾,以展望该技术的进一步改进。
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