应变SiGe层中电子迁移率与衬底取向的关系

International Conference on Simulation of Semiconductor Processes and Devices, 2003. SISPAD 2003. Pub Date : 2003-09-29 DOI:10.1109/SISPAD.2003.1233636

S. Smirnov, H. Kosina, S. Selberherr

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引用次数: 4

摘要

利用蒙特卡罗模拟研究了任意取向和Ge摩尔分数SiGe衬底上应变活性SiGe层的低场电子迁移率行为。引入欧拉角来确定移动度平面内分量的基板取向和方向。将应变张量转化为一般形式，然后利用线性变形势理论计算X和L谷的分裂。此外，流体静力位移也被考虑在内。对于掺杂材料，电离杂质散射率被修正以考虑所有谷和取向。考虑了高掺杂水平下的泡利不相容原理，并讨论了泡利不相容原理与应变效应的相互作用。

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Substrate orientation-dependence of electron mobility in strained SiGe layers

The behavior of the low field electron mobility in strained active SiGe layers on SiGe substrates with arbitrary orientation and Ge mole fraction is investigated using Monte Carlo simulation. Euler's angles are introduced to determine the substrate orientation and direction for the in-plane component of the mobility. The strain tensor is transformed to a general form and the splitting of X and L valleys is then calculated using linear deformation potential theory. Additionally the hydrostatic shift is taken into account. For doped materials, the ionized impurity scattering rate is modified to take into consideration all valleys and orientations. The Pauli exclusion principle is considered for high doping level and its interplay with the strain effects is discussed.

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International Conference on Simulation of Semiconductor Processes and Devices, 2003. SISPAD 2003.

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