[111]导向GaAs和InP伪晶HEMT的自洽计算

Proceedings of IEEE/Cornell Conference on Advanced Concepts in High Speed Semiconductor Devices and Circuits Pub Date : 1993-08-02 DOI:10.1109/CORNEL.1993.303117

J. Sánchez-Rojas, E. Muñoz

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引用次数: 2

摘要

介绍了掺杂[111]-FET的ingaas伪晶调制的能带结构计算、电荷分布和电荷控制特性。AlGaAs-InGaAs-GaAs结构中的压缩应变和AlInAs-InGaAs-InP器件中的拉伸应变和压缩应变均用于通过压电效应产生内部电场。正常和倒置的HEMT最大。利用该压电内场设计了井内电荷和最小化平行传导。在这种新定向下，电荷浓度(提高了50%)及其在井中的分布(几乎居中)得到了改善。比较了[100]和[111]两个方向的跨导和栅极电容与栅极电压。我们得出结论，当使用[111]衬底时，器件性能得到改善。

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Self-consistent calculations of [111]-oriented GaAs and InP based pseudomorphic HEMT's

Band structure calculations, charge distribution and charge control properties in InGaAs-based pseudomorphic modulation doped [111]-FET's are presented. Compressive strain in AlGaAs-InGaAs-GaAs structures, and both tensile and compressive strains in AlInAs-InGaAs-InP devices are used to generate internal electric fields via the piezoelectric effect. Normal and inverted HEMT's with maximum. Charge in the well and minimized parallel conduction have been designed using this piezoelectric internal field. Improvements in charge concentration (up to 50% more) and its distribution in the well (almost centered) are achieved in this new orientation. Transconductance and gate capacitance versus gate voltage are compared for the [100] and [111] orientations. We conclude that the device performance is improved when the [111] substrate is used.<>

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Proceedings of IEEE/Cornell Conference on Advanced Concepts in High Speed Semiconductor Devices and Circuits

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