基于4.5 MV加速器的半导体材料与器件原位辐射测试系统的构建

2021 4th International Conference on Radiation Effects of Electronic Devices (ICREED) Pub Date : 2021-05-26 DOI:10.1109/icreed52909.2021.9588711

Xiuyu Zhang, Yuan Gao, Yifan Zhang, J. Xue

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引用次数: 1

摘要

实时监测辐照下半导体材料和器件的电学性能，可以最大限度地减少室温退火的影响，方便地获取数据。本文建立了基于4.5 MV加速器的原位辐射测试系统，用于测量4H-SiC在2 MeV质子辐照下的电学性能。结果表明，当离子影响从6.37×1013 cm−2增加到8.16×1015 cm−2时，4H-SiC的电阻增加，表明该体系是研究MeV离子辐照下电阻原位变化的有力工具。

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Construction of an in-situ radiation test system for semiconductor materials and devices based on a 4.5 MV accelerator

Real-time monitoring the electrical property of semiconductor materials and devices under irradiation can minimize the impact of room temperature annealing and obtain data conveniently. In this work, an in-situ radiation test system was constructed based on a 4.5 MV accelerator and used to measure the electrical property of 4H-SiC under 2 MeV protons irradiation. The results show that the resistance of 4H-SiC increases when the ion fluence increases from 6.37×1013 cm−2 to 8.16×1015 cm−2, showing the system is a powerful tool to investigate the in-situ change of the resistance under MeV ion irradiation.

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2021 4th International Conference on Radiation Effects of Electronic Devices (ICREED)

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