考虑应变效应的损耗模式埋入沟道InGaAs/InAs量子阱场效应管的自一致C-V表征

2012 IEEE International Conference on Electronics Design, Systems and Applications (ICEDSA) Pub Date : 2012-11-01 DOI:10.1109/ICEDSA.2012.6507820

I. Ahmed, I. Niaz, M. H. Alam, N. Chowdhury, Z. Azim, Q.D. Mohd Khosru

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引用次数: 0

摘要

采用结合量子力学(QM)效应的自洽方法研究了耗尽模式埋入沟道InGaAs/InAs量子阱场效应管的电容-电压(C-V)特性。虽然最近的文献中有增强型器件的C-V实验结果，但对耗尽型埋藏沟道量子阱场效应管(QWFET)结构的静电特性还没有完整的表征。研究了该器件的C-V特性随铟(In)成分、栅极介电介质和氧化物厚度三个重要工艺参数的变化。我们观察到，随着InGaAs势垒层中铟(in)含量的增加，反转电容和弹道电流有增大的趋势。

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Self-consistent C-V characterization of depletion mode buried channel InGaAs/InAs Quantum Well FET incorporating strain effects

We investigated Capacitance-Voltage (C-V) characteristics of the Depletion Mode Buried Channel InGaAs/InAs Quantum Well FET by using Self-Consistent method incorporating Quantum Mechanical (QM) effects. Though the experimental results of C-V for enhancement type device is available in recent literature, a complete characterization of electrostatic property of depletion type Buried Channel Quantum Well FET (QWFET) structure is yet to be done. C-V characteristics of the device is studied with the variation of three important process parameters: Indium (In) composition, gate dielectric and oxide thickness. We observed that inversion capacitance and ballistic current tend to increase with the increase in Indium (In) content in InGaAs barrier layer.

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2012 IEEE International Conference on Electronics Design, Systems and Applications (ICEDSA)

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