Effects of spot size on the operation mode of GaAs PCSS employing extrinsic photoconductivity

Pub Date : 2023-12-01 DOI:10.1088/2058-6272/ad1194

Jinhong Wei, Song Li, Hong Chen, Fanzheng Zeng, Chenglin Jia, Zebin Fu, Xingjun Ge, Baoliang Qian

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Abstract

To guide the illuminating design to improve the on-state performances of gallium arsenide (GaAs) photoconductive semiconductor switch (PCSS), the effect of spot size on the operation mode of GaAs PCSS based on a semi-insulating wafer with a thickness of 1 mm, triggered by a 1064-nm extrinsic laser beam with the rectangular spot, has been investigated experimentally. It is found that the variation of the spot size in length and width can act on the different parts of the output waveform integrating the characteristics of the linear and nonlinear modes, and then significantly boosts the PCSS toward different operation modes. On this basis, a two-channel model containing the active and passive parts is introduced to interpret the relevant influencing mechanisms. Results indicate that the increased spot length can peak the amplitude of static domains in the active part to enhance the development of the nonlinear switching, while the extended spot width can change the distribution of photogenerated carriers on both parts to facilitate the linear switching and weaken the nonlinear switching, which have been proved by comparing the domain evolutions under different spot sizes.

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光斑尺寸对采用外生光电导的砷化镓 PCSS 工作模式的影响

为了指导照明设计，提高砷化镓(GaAs)光导半导体开关(PCSS)的导态性能，实验研究了光斑尺寸对基于1 mm半绝缘硅片的砷化镓(GaAs)光导半导体开关(PCSS)工作模式的影响，该开关由带有矩形光斑的1064 nm外部激光束触发。研究发现，光斑长度和宽度的变化可以综合线性和非线性模式的特性，作用于输出波形的不同部分，从而显著提高不同工作模式下的PCSS。在此基础上，引入了一个包含主动和被动部分的双通道模型来解释相关的影响机制。结果表明，增大光斑长度可使有源部分静态域的振幅达到峰值，促进非线性开关的发展;增大光斑宽度可改变两部分光生载流子的分布，促进线性开关的发展，减弱非线性开关的发展。

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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