Electronic states in cylindrical core-multi-shell nanowire

A. O. Rudakov; I. A. Kokurin

arXiv:2101.06532·cond-mat.mes-hall·January 19, 2021

Electronic states in cylindrical core-multi-shell nanowire

A. O. Rudakov, I. A. Kokurin

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TL;DR

This paper presents a method for calculating electron subbands in complex cylindrical core-multi-shell nanowires using the effective mass approximation, with numerical results for GaAs/AlGaAs structures.

Contribution

It introduces a computational approach for electron states in CMS nanowires, accounting for heterolayer effective mass differences.

Findings

01

Numerical results for GaAs/AlGaAs nanowires are provided.

02

Effective mass differences significantly influence electron subband structure.

03

The method enables analysis of complex nanowire heterostructures.

Abstract

The recent advances in nanowire (NW) growth technology have made possible the growth of more complex structures such as core-multi-shell (CMS) NWs. We propose the approach for calculation of electron subbands in cylindrical CMS NWs within the simple effective mass approximation. Numerical results are presented for $GaAs/A l_{0.3} G a_{0.7} As$ radial heterostructure with AlGaAs-core and 4 alternate GaAs and AlGaAs shells. The influence of an effective mass difference in heterolayers is discussed.

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