Hexagonal GaN based photo-irradiated IMPATT devices for application in MM-wave communication systems

M. Mukherjee
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引用次数: 1

Abstract

Extensive simulation experiments are carried out for the first time, to study the effects of photo-irradiation on the high frequency characteristics of III-V hexagonal GaN (Gallium Nitride) based Top-Mounted and Flip-Chip IMPATT oscillators at MM-wave window frequency (140.0 GHz). It is found that the un-illuminated GaN IMPATT is capable of delivering a RF power of 5.6 W with an efficiency of 23.5% at 145.0 GHz. Frequency up-chirping of 6.0 GHz and a degradation of RF power output by almost 15.0 % are further observed in case of photo-illuminated FC IMPATT. The study reveals that compare to pre-dominate electron photocurrent in Top-Mounted IMPATT, photo-generated leakage current dominated by hole in Flip-Chip IMPATT has more pronounced effect on the GaN based device as regards the frequency chirping and decrease of negative conductance and total negative resistance per unit area of the device. The inequality in the magnitudes of electron and hole ionization rates in the Wide Band Gap semiconductor have been found to be correlated with the above results. The study reveals that GaN IMPATT is a potential candidate for replacing conventional IMPATTs at high frequency operation.
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在毫米波通信系统中应用的六角形GaN光辐照IMPATT器件
本文首次进行了广泛的模拟实验,研究了光照射对基于III-V型六方氮化镓(镓氮化镓)的顶装和倒装IMPATT振荡器在mm波窗口频率(140.0 GHz)下高频特性的影响。研究发现,在145.0 GHz下,未照明的GaN IMPATT能够提供5.6 W的射频功率,效率为23.5%。在光照射FC impt的情况下,进一步观察到6.0 GHz的频率上啁啾和RF功率输出的衰减近15.0%。研究表明,与Top-Mounted IMPATT中的前置主导电子光电流相比,Flip-Chip IMPATT中空穴主导的光生泄漏电流对GaN基器件的频率啁啾以及器件单位面积负电导和总负电阻的降低都有更明显的影响。宽频带隙半导体中电子和空穴电离率大小的不均匀性与上述结果有关。该研究表明,GaN IMPATT是取代传统IMPATT的高频操作的潜在候选材料。
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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