Effect of temperature on the binding energy of a shallow hydrogenic impurity in a quantum well wire

T. G Emam

doi:10.1139/P09-083

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Effect of temperature on the binding energy of a shallow hydrogenic impurity in a quantum well wire

Journal article

Peer reviewed

Effect of temperature on the binding energy of a shallow hydrogenic impurity in a quantum well wire

T. G Emam

Canadian journal of physics, Vol.87(11), pp.1159-1161

11/2009

DOI: https://doi.org/10.1139/P09-083

Abstract

68.65.La

In this work, we investigate the variation of the binding energy of an on-axis hydrogenic impurity in a cylindrical semiconductor GaAsalxGa 1- x As quantum well wire (QWW) with temperature, by taking into account the temperature dependance of the electron masses and dielectric constants in the quantum well and potential barrier region as well as the temperature dependence of the barrier height. This investigation is important in understanding the role such impurities can play in determining the transport properties of such systems. The results show enhancement of the binding energy as the temperature is decreased, specially for small values of wire radius.

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Title: Effect of temperature on the binding energy of a shallow hydrogenic impurity in a quantum well wire
Creators - without role: T. G Emam - Ain Shams University
Publication Details: Canadian journal of physics, Vol.87(11), pp.1159-1161
Identifiers: 9933142408331
Academic Unit: University of Jeddah
Language: English
Resource Type: Journal article