Quantum mechanical aspects of vertical transport and capture in quantum wells

1998 Sixth International Workshop on Computational Electronics. Extended Abstracts (Cat. No.98EX116) Pub Date : 1998-10-19 DOI:10.1109/IWCE.1998.742711

G. Baraff

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Abstract

We study the effect of an imaginary potential and (separately) of a finite coherence length on the transmission, reflection, and capture fractions for a thermal distribution of carriers incident on a single quantum well. The formalism used is closely related to one used by Kuhn and Mahler for the same purpose. Closed form expressions are obtained for the three transport fractions resulting from a single incident beam. Three independent fitting parameters are used in this formalism, namely, the size of the imaginary potential, the extent it penetrates into the barriers adjacent to the well, and the phase coherence length. This last is a length scale associated with a correlation function that appears when the phase of the wave function is treated as a stochastic variable. We show that the parameters can be chosen so that the transport fractions agree with those calculated from first principles, and show how a shortening of the coherence length, e.g., by electron-electron interactions that have been left out of the first principles calculation, destroys the resonant behavior of these fractions predicted by Brum and Bastard.

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量子阱中垂直输运和捕获的量子力学方面

我们研究了虚势和有限相干长度对入射在单个量子阱上的载流子热分布的透射、反射和捕获分数的影响。所使用的形式主义与库恩和马勒为同一目的所使用的形式主义密切相关。得到了单入射光束产生的三个输运分数的封闭表达式。在这种形式中，使用了三个独立的拟合参数，即虚势的大小，它穿透邻近井的势垒的程度，以及相相干长度。最后一个是与相关函数相关联的长度尺度，当波函数的相位被视为随机变量时，相关函数就会出现。我们展示了可以选择参数，使输运分数与第一原理计算的分数一致，并展示了相干长度的缩短，例如，通过第一原理计算中遗漏的电子-电子相互作用，如何破坏Brum和Bastard预测的这些分数的共振行为。

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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来源期刊

1998 Sixth International Workshop on Computational Electronics. Extended Abstracts (Cat. No.98EX116)

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