Effect of proton radiation on gallium nitride light emitting diodes

Bulletin of Electrical Engineering and Informatics Pub Date : 2024-02-01 DOI:10.11591/eei.v13i1.6205

Tamana Baba, Muhammad Hazeeq Husni, N. Saidin, N. Hasbullah

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Abstract

The compound semiconductor gallium nitride offers enormous potential for facilitating economic expansion in the silicon-based semiconductor industry, which is currently seeing decreasing performance returns compared to investment costs. Its high electron mobility and electric field strength at the material level have already demonstrated enormous potential for photonics and high-frequency communications applications. However, its application in devices used in the radiation-prone environment is hindered by degradation and failure caused by the radiation. In this paper, the effect of proton radiation on the electrical properties of InGaN light emitting diodes (LEDs) for the fluence range of 1×1014 cm-2 to 3×1014 cm-2 is performed. On comparing the results before and after radiation, it is found that radiation mainly affected the reverse IV characteristics of the device with little or no effect on forward IV or CV characteristics. Apart from the electric properties, the optical properties of the LEDs show improvement after radiation as the light intensity increases post-irradiation.

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质子辐射对氮化镓发光二极管的影响

化合物半导体氮化镓为促进硅基半导体行业的经济扩张提供了巨大的潜力，目前硅基半导体行业的性能回报率与投资成本相比正在不断下降。氮化镓在材料层面的高电子迁移率和电场强度已经证明了其在光电子学和高频通信应用方面的巨大潜力。然而，在易受辐射环境中使用的设备中，辐射造成的降解和故障阻碍了它的应用。本文研究了在 1×1014 cm-2 至 3×1014 cm-2 的通量范围内，质子辐射对 InGaN 发光二极管（LED）电性能的影响。通过比较辐照前后的结果发现，辐照主要影响了器件的反向 IV 特性，而对正向 IV 或 CV 特性几乎没有影响。除电学特性外，随着辐照后光强的增加，LED 的光学特性在辐照后也有所改善。

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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Bulletin of Electrical Engineering and Informatics

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