Positive and negative frequency dispersion of output conductance in GaAs MESFETs used in optically controlled microwave amplifiers

2007 ICTON Mediterranean Winter Conference Pub Date : 2007-12-01 DOI:10.1109/ICTONMW.2007.4446964

Z. Hadjoub, A. Khoualdia, K. Cheikh, A. Doghmane

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引用次数: 1

Abstract

GaAs MESFETs, which form the basis of photonic MMIC's and OEIC's, have drawn considerable attention in recent years. However, their optical, microwave and electrical characteristics are largely dependent on internal parameters. In this context, we measure the frequency dependence of output conductance in GaAs MESFETs which may be an important concern for device design and reliability. Measurements were carried out, at room temperature, in the frequency range [10 Hz -10 MHz] under several drain-source polarization, Vds, ranging from 100 mV to 2 V and gate-source potentials, Vgs, from 100 mV to 200 mV. The novelty in the obtained gd(f) results lies in the co-existence, for the same device, of three distinct behaviours: a constant dependence observed for weak Vds < 0.7 V, followed by an increase or positive dispersion for 0.7 V < Vds < 1.5 V and then a negative dispersion for Vds > 1.5 V. This behaviour could be attributed to the effects of deep level traps in the depletion region (that could be nanometric) and to surface and interface recombination.

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光控微波放大器用GaAs mesfet输出电导的正负频散

GaAs mesfet作为光子MMIC和OEIC的基础，近年来受到了广泛的关注。然而，它们的光学、微波和电学特性在很大程度上取决于内部参数。在这种情况下，我们测量了GaAs mesfet中输出电导的频率依赖性，这可能是器件设计和可靠性的重要关注点。在室温下，在[10 Hz -10 MHz]的频率范围内，在多个漏源极化(Vds)和栅源电位(Vgs)下进行测量，电压范围为100 mV至2 mV。所获得的gd(f)结果的新颖性在于，对于同一器件，三种不同的行为共存:弱Vds < 0.7 V时观察到恒定的依赖关系，然后在0.7 V < Vds < 1.5 V时增加或正色散，然后在Vds > 1.5 V时出现负色散。这种行为可归因于枯竭区深层圈闭(可能是纳米级)的影响以及表面和界面的重组。

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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2007 ICTON Mediterranean Winter Conference

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