基于能量松弛过程的锗和硅纳米线准弹道空穴输运理论分析

Hajime Tanaka, J. Suda, T. Kimoto
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引用次数: 1

摘要

利用原子电子-声子耦合和玻尔兹曼输运方程计算了锗和硅NWs的准弹道空穴输运能力。对正向和反向电流通量的分析表明,Ge的高迁移率的积极影响被其较慢的能量弛豫所抵消,这使得Ge和Si NWs之间的传输系数和电流输运能力相当。
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Theoretical analysis of quasi-ballistic hole transport in Ge and Si nanowires focusing on energy relaxation process
The quasi-ballistic hole transport capabilities of Ge and Si NWs were calculated using atomistic electron-phonon coupling and Boltzmann transport equation. Analyzing the forward and backward current fluxes, it was shown that the positive impact of high mobility of Ge is canceled by its slower energy relaxation, which results in comparable transmission coefficients and current transport capabilities between Ge and Si NWs.
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