Modeling of hole inversion layer mobility in unstrained and uniaxially strained Si on arbitrarily oriented substrates

ESSDERC 2007 - 37th European Solid State Device Research Conference Pub Date : 2007-09-01 DOI:10.1109/ESSDERC.2007.4430960
A. Pham, C. Jungemann, B. Meinerzhagen
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引用次数: 7

Abstract

The hole inversion layer mobility of in-plane uniaxially strained Si is modeled by a microscopic approach. For an arbitrary crystallographic surface orientation the two dimensional hole gas subband structure is calculated by solving the 6 times 6 koarr ldr poarr Schrodinger equation self-consistently with the electrostatic potential. Three important scattering mechanisms are included: optical phonon scattering, acoustic phonon scattering and surface roughness scattering. The model parameters are calibrated by matching the measured low-field mobility of relaxed Si on (001) Si wafers. The calibrated model reproduces available channel mobility measurements for unstrained and uniaxially strained Si on (001), (111) and (110) substrates.
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任意取向基底上非应变和单轴应变Si中空穴反转层迁移率的建模
用微观方法模拟了面内单轴应变硅的空穴反转层迁移率。在任意晶体表面取向下,通过求解与静电势自洽的6 × 6克尔薛定谔方程,计算了二维空穴气体子带结构。三种重要的散射机制包括:光学声子散射、声子散射和表面粗糙度散射。通过匹配(001)Si晶片上松弛Si的低场迁移率来校准模型参数。校准后的模型再现了(001)、(111)和(110)基板上未应变和单轴应变Si的可用通道迁移率测量。
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ESSDERC 2007 - 37th European Solid State Device Research Conference
ESSDERC 2007 - 37th European Solid State Device Research Conference
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