应变硅中空穴的流体动力学输运参数

1998 Sixth International Workshop on Computational Electronics. Extended Abstracts (Cat. No.98EX116) Pub Date : 1998-10-19 DOI:10.1109/IWCE.1998.742756

F. M. Bufler, B. Meinerzhagen

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引用次数: 0

摘要

通过蒙特卡罗模拟计算了在300 K时，在Si/sub 0.7/Ge/sub 0.3/衬底上生长的非应变和[001]应变Si中孔沿场方向的漂移速度、载流子温度和能量弛豫时间。在双轴拉伸应变下，漂移速度随电场的变化显著增强，但随空穴温度变化，漂移速度小于未应变情况，因为在应变下空穴更容易加热。突然施加100 kV/cm的电场时，欧姆面内漂移迁移率和瞬态速度超调峰值分别提高了约3倍和2倍。

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Hydrodynamic transport parameters for holes in strained silicon

Drift velocities, carrier temperatures and energy relaxation times are computed by full-band Monte Carlo simulation along the <110> field direction at 300 K for holes in unstrained and [001]-strained Si grown on a Si/sub 0.7/Ge/sub 0.3/ substrate. The drift velocity as a function of the electric field is significantly enhanced under biaxial tensile strain, but is smaller than in the unstrained case when plotted versus the hole temperature because the holes are more easily heated under strain. The ohmic in-plane drift mobility and the transient velocity overshoot peak for a sudden application of a field of 100 kV/cm are enhanced by a factor of approximately three and two, respectively.

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来源期刊

1998 Sixth International Workshop on Computational Electronics. Extended Abstracts (Cat. No.98EX116)

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