Hot phonons in quantum wells systems

P. Lugli; P. Bordone; S. Gualdi; P. Poli; S. M. Goodnick

doi:10.1016/0038-1101(89)90329-8

Hot phonons in quantum wells systems

P. Lugli, P. Bordone, S. Gualdi, P. Poli, S. M. Goodnick

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

We present an investigation of non-equilibrium LO-phonon effects in quantum well systems. Phonon confinement is taken into account by considering esplicitly slab modes in the formulation of Fuchs and Kliever. With respect to the "standard" case, where a tridimensional dispersion is used for the LO phonons, the electron-phonon interaction is riduced as result of phonon confinement. We use the Monte Carlo (MC) scheme, which allows the simultaneous study of the coupled electron and phonon dynamics, without requiring any sort of assumption on the respective distribution function. It should be pointed out that the quantization of the phonon wavevector in the direction perpendicular to the interface completely solves the normalization problems of the hot-phonon calculation in 2D-systems. For the case of photoexcitation in AlGaAs-GaAs quantum wells we observe a reduction in the cooling rate due to the reabsorption of hot phonon.

Original language	English (US)
Pages (from-to)	1881-1885
Number of pages	5
Journal	Solid State Electronics
Volume	32
Issue number	12
DOIs	https://doi.org/10.1016/0038-1101(89)90329-8
State	Published - Dec 1989
Externally published	Yes

Keywords

Hot phonons
Monte Carlo simulation
quantum wells
slab modes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Electrical and Electronic Engineering
Materials Chemistry

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10.1016/0038-1101(89)90329-8

Cite this

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title = "Hot phonons in quantum wells systems",

abstract = "We present an investigation of non-equilibrium LO-phonon effects in quantum well systems. Phonon confinement is taken into account by considering esplicitly slab modes in the formulation of Fuchs and Kliever. With respect to the {"}standard{"} case, where a tridimensional dispersion is used for the LO phonons, the electron-phonon interaction is riduced as result of phonon confinement. We use the Monte Carlo (MC) scheme, which allows the simultaneous study of the coupled electron and phonon dynamics, without requiring any sort of assumption on the respective distribution function. It should be pointed out that the quantization of the phonon wavevector in the direction perpendicular to the interface completely solves the normalization problems of the hot-phonon calculation in 2D-systems. For the case of photoexcitation in AlGaAs-GaAs quantum wells we observe a reduction in the cooling rate due to the reabsorption of hot phonon.",

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author = "P. Lugli and P. Bordone and S. Gualdi and P. Poli and Goodnick, {S. M.}",

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T1 - Hot phonons in quantum wells systems

AU - Lugli, P.

AU - Bordone, P.

AU - Gualdi, S.

AU - Poli, P.

AU - Goodnick, S. M.

PY - 1989/12

Y1 - 1989/12

N2 - We present an investigation of non-equilibrium LO-phonon effects in quantum well systems. Phonon confinement is taken into account by considering esplicitly slab modes in the formulation of Fuchs and Kliever. With respect to the "standard" case, where a tridimensional dispersion is used for the LO phonons, the electron-phonon interaction is riduced as result of phonon confinement. We use the Monte Carlo (MC) scheme, which allows the simultaneous study of the coupled electron and phonon dynamics, without requiring any sort of assumption on the respective distribution function. It should be pointed out that the quantization of the phonon wavevector in the direction perpendicular to the interface completely solves the normalization problems of the hot-phonon calculation in 2D-systems. For the case of photoexcitation in AlGaAs-GaAs quantum wells we observe a reduction in the cooling rate due to the reabsorption of hot phonon.

AB - We present an investigation of non-equilibrium LO-phonon effects in quantum well systems. Phonon confinement is taken into account by considering esplicitly slab modes in the formulation of Fuchs and Kliever. With respect to the "standard" case, where a tridimensional dispersion is used for the LO phonons, the electron-phonon interaction is riduced as result of phonon confinement. We use the Monte Carlo (MC) scheme, which allows the simultaneous study of the coupled electron and phonon dynamics, without requiring any sort of assumption on the respective distribution function. It should be pointed out that the quantization of the phonon wavevector in the direction perpendicular to the interface completely solves the normalization problems of the hot-phonon calculation in 2D-systems. For the case of photoexcitation in AlGaAs-GaAs quantum wells we observe a reduction in the cooling rate due to the reabsorption of hot phonon.

KW - Hot phonons

KW - Monte Carlo simulation

KW - quantum wells

KW - slab modes

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VL - 32

SP - 1881

EP - 1885

JO - Solid State Electronics

JF - Solid State Electronics

IS - 12

ER -

Hot phonons in quantum wells systems

Abstract

Keywords

ASJC Scopus subject areas

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