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Giant mobility enhancement in highly strained, direct gap Ge

Ulis 2011 Ultimate Integration on Silicon Pub Date : 2011-03-14 DOI:10.1109/ULIS.2011.5757987
F. Murphy-Armando, S. Fahy
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引用次数: 2

Abstract

First-principles electronic structure methods are used to predict the rate of n-type carrier scattering due to phonons in highly-strained Ge. We show that strains achievable in nanoscale structures, where Ge becomes a direct band-gap semiconductor, cause the phonon-limited mobility to be enhanced by hundreds of times that of unstrained Ge, and over a thousand times that of Si.
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巨迁移率增强在高应变、直隙格
利用第一性原理电子结构方法预测了高应变锗中声子引起的n型载流子散射速率。我们展示了在纳米级结构中可以实现的应变,其中Ge成为直接带隙半导体,导致声子限制迁移率比未应变的Ge提高了数百倍,比Si提高了1000多倍。
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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Ulis 2011 Ultimate Integration on Silicon
Ulis 2011 Ultimate Integration on Silicon
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