Planar Schottky diodes with low barrier height for microwave detector application

V. Shashkin, Y. Chechenin, V. Danil’tsev, O. Khrykin, A. Maslovsky, A. Murel, V. Vaks
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引用次数: 6

Abstract

The results of designing and investigation of a sensitivity of microwave detectors, based on planar GaAs diodes with low effective Schottky barrier height are reported. Low pressure metalorganic chemical vapor deposition (MOCVD) technology was used for the modification of the effective Schottky barrier height by means of precise /spl delta/-doping of near-surface layer and for successive deposition of an aluminium film in non-interrupted growth run. A complete quantum-mechanical numerical simulation of the effect produced by /spl delta/-doping on the current-voltage characteristic of the modified diodes is carried out. Comparison of computational results with the experimental characteristics of diodes shows a rather good agreement. Analysis of the carried-out research has allowed one to choose optimum parameters of /spl delta/-layers for producing low barrier diodes (/spl sim/0.2 eV) with a reasonable ideality factor (n<1.5). The best performance of the low barrier diode corresponding to /spl gamma/=5000 V/W and NEP=(3/spl divide/6)/spl middot/10/sup -12/ W/spl middot/Hz/sup -1/2/ at 150 GHz was at zero bias voltage.
微波探测器用低势垒高度平面肖特基二极管
本文报道了基于低有效肖特基势垒高度的平面砷化镓二极管的灵敏度微波探测器的设计和研究结果。采用低压金属有机化学气相沉积(MOCVD)技术,通过精确/spl δ /近表面层掺杂来修饰有效肖特基势垒高度,并在不间断生长过程中连续沉积铝膜。对/spl δ /-掺杂对改性二极管电流-电压特性的影响进行了完整的量子力学数值模拟。计算结果与二极管的实验特性比较,结果吻合较好。对所进行的研究进行分析,可以选择最佳参数/spl δ /-层,以生产具有合理理想因子(n<1.5)的低势垒二极管(/spl sim/0.2 eV)。对应于/spl gamma/=5000 V/W和NEP=(3/spl divide/6)/spl middot/10/sup -12/ W/spl middot/Hz/sup -1/2/ 150 GHz的低势垒二极管在零偏置电压下表现最佳。
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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