Scattering in Si-nanowires — Where does it matter?

Gerhard Klimeck, Mathieu Luiser
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Abstract

Electron transport is computed in 3nm Si nanowires subject to incoherent scattering from phonons. The electronic structure of the nanowire is represented in an atomistic sp3d5s* tight binding basis. Phonon modes are computed in an atomistic valence force field rather than a continuum deformation potential. Atomistic transport and incoherent scattering are coupled through the non-equilibrium Green function formalism (NEGF) in our new OMEN simulator. Energy loss due to phonon emission is shown to lead to a resistive potential drop in the emitter of the nanowire. Phonon absorption is shown to increase the current in a band-to-band-tunneling configuration.
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硅纳米线中的散射——有什么关系?
计算了受声子非相干散射作用的3nm硅纳米线中的电子输运。纳米线的电子结构以原子的sp3d5 *紧密结合基表示。声子模是在原子价态力场中计算的,而不是在连续变形势中计算的。在我们的新OMEN模拟器中,原子输运和非相干散射通过非平衡格林函数形式(NEGF)进行耦合。由于声子发射的能量损失导致纳米线发射极的电阻电位下降。声子吸收在带对带隧道结构中增加了电流。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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