用集成蒙特卡罗模拟评价亚微米GaAs MESFET低场漏极区的电子压力效应

2000 22nd International Conference on Microelectronics. Proceedings (Cat. No.00TH8400) Pub Date : 2000-12-01 DOI:10.1109/ICMEL.2000.840542

Y. Yamada, M. Hasegawa

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引用次数: 0

摘要

采用蒙特卡罗模拟方法研究了栅极长度为0.2 /spl mu/m的GaAs MESFET中电子压力项对平均电子速度的影响。在主通道上分别计算了平均电子速度的四个分量。发现在低场漏极区，电子压力分量与漂移分量相当或超过漂移分量。将电子压力分量加入漂移分量会产生与爱因斯坦关系的较大偏差，有效迁移率过高，为15000-30000 cm/sup 2//Vsec。因此，任何亚微米GaAs MESFET的器件模型都不应该基于漂移-扩散模型，而应该基于明确包含电子压力项的模型。

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Evaluation of electron pressure effect in low-field drain region of submicron GaAs MESFET using ensemble Monte Carlo simulation

The ensemble Monte Carlo simulation is carried out to study effects of the electron pressure term on the mean electron velocity in the GaAs MESFET with a gate length of 0.2 /spl mu/m. The four components of the mean electron velocity are separately evaluated on the main channel. It is found that the electron pressure component is comparable to the drift one or exceeds it in the low-field drain region. Including the electron pressure component into the drift one produces a large deviation from the Einstein relation and a too large effective mobility of 15000-30000 cm/sup 2//Vsec. So it is concluded that any device model for the submicron GaAs MESFET should not be based on a drift-diffusion model, but on a model explicitly including the electron pressure term.

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2000 22nd International Conference on Microelectronics. Proceedings (Cat. No.00TH8400)

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