Classical Theory of Hot-Electron Transport in Electric and Magnetic Fields

Balance equation approach to the hot-electron transport in electric and magnetic fields is reformulated.The balance equations are re-derived from the Boltzmann equation. A new expression for the distribution function isreported in the present paper. It is homogeneous steady solution of the Boltzmann...

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Veröffentlicht in:	Communications in theoretical physics 2002, Vol.38 (9), p.370-374
1. Verfasser:	WENG Ming-Qi WU Hang-Sheng
Format:	Artikel
Sprache:	eng
Schlagworte:	balance Boltzmann equation hot-electron mobility transport
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container_title	Communications in theoretical physics
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creator	WENG Ming-Qi WU Hang-Sheng
description	Balance equation approach to the hot-electron transport in electric and magnetic fields is reformulated.The balance equations are re-derived from the Boltzmann equation. A new expression for the distribution function isreported in the present paper. It is homogeneous steady solution of the Boltzmann equation in constant relaxation timeapproximation. It holds when ωocτ < i or ωc < Te. As an example, the mobility of 2D electron gas in the GaAs-AlGaAsheterojunction is computed as a function of electric field and magnetic field.
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source	IOP Publishing Journals; Institute of Physics (IOP) Journals - HEAL-Link
subjects	balance Boltzmann equation hot-electron mobility transport
title	Classical Theory of Hot-Electron Transport in Electric and Magnetic Fields
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