自供电硅/碳化硅异质结探测器在中子辐照下的辐射硬度

IF 1.4 3区物理与天体物理 Q3 INSTRUMENTS & INSTRUMENTATION

Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment Pub Date : 2024-03-27 DOI:10.1016/j.nima.2024.169295

Z.L. Feng , R.L. Gao , L.Y. Liu , W.Y. Ma , R. Jia , O.Y. Xiaoping

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引用次数: 0

摘要

在通常情况下，面对恶劣的太空环境，功耗低、使用寿命长的半导体辐射探测器是首选。针对这一问题，本文提出了一种新型硅/碳化硅异质结探测器。在中子辐照通量为 1 × 1012 cm-2 时，该探测器的电荷收集效率为 96.2%，在 10 V 偏置下，243Am-244Cm α 粒子探测的能量分辨率为 0.95%。在自供电模式下，它能保持 44.2% 的电荷收集效率。采用异质结结构后，探测器的性能显著提高，载流子寿命延长。由于硅/碳化硅异质结探测器在低偏压下甚至在中子辐照后的自供电模式下都能保持较高的电荷收集效率，因此它已被确定为空间辐射探测的一种有前途的选择。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Radiation hardness of self-powered Si/SiC heterojunction detector under neutron irradiation

When typically confronted with harsh environments in space, semiconductor radiation detectors with low-power consumption and long service life are preferred. To address this concern, a novel Si/SiC heterojunction detector is proposed in this paper. At a neutron irradiation fluence of 1 $\times$ 10¹² cm⁻², the detector has a charge collection efficiency of 96.2% and an energy resolution of 0.95% at 10 V bias at ²⁴³Am-²⁴⁴Cm alpha particle detection. It can maintain a charge collection efficiency of 44.2% in the self-powered mode. The detector's performance is improved significantly using the heterojunction structure, extending its carrier lifetime. Due to its exceptional performance in sustaining high charge collection efficiency at low bias or even in self-powered mode following neutron irradiation, the Si/SiC heterojunction detector has been established as a promising option for space radiation detection.

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来源期刊

Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment 物理-光谱学

CiteScore

3.20

自引率

21.40%

发文量

787

审稿时长

1 months

期刊介绍： Section A of Nuclear Instruments and Methods in Physics Research publishes papers on design, manufacturing and performance of scientific instruments with an emphasis on large scale facilities. This includes the development of particle accelerators, ion sources, beam transport systems and target arrangements as well as the use of secondary phenomena such as synchrotron radiation and free electron lasers. It also includes all types of instrumentation for the detection and spectrometry of radiations from high energy processes and nuclear decays, as well as instrumentation for experiments at nuclear reactors. Specialized electronics for nuclear and other types of spectrometry as well as computerization of measurements and control systems in this area also find their place in the A section. Theoretical as well as experimental papers are accepted.