Energy relaxation of an excited electron gas in quantum wires: many-body
  electron LO-phonon coupling

A.C. Maciel; A.R. Goni; B.Y-K. Hu; C.H. Yang; E.H. Hwang; H. Lobentanzer; H.J. Polland; J. Shah; J. Shah; J. Shah; J. Shah; J. Shah; J.K Jain; J.R. Senna; Lian Zheng; P. Kocevar; P.J. Price; Q.P. Li; R.F. Leheny; S. Das Sarma; S. Das Sarma; S. Das Sarma; S. Das Sarma; S. Das Sarma; S. Das Sarma; S. Das Sarma; S. Lyon; S.J. Manion; T. Kawamura; V.B. Campos; V.B. Campos

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Energy relaxation of an excited electron gas in quantum wires: many-body electron LO-phonon coupling

Authors: A.C. Maciel
A.R. Goni
B.Y-K. Hu
C.H. Yang
E.H. Hwang
H. Lobentanzer
H.J. Polland
J. Shah
J. Shah
J. Shah
J. Shah
J. Shah
J.K Jain
J.R. Senna
Lian Zheng
P. Kocevar
P.J. Price
Q.P. Li
R.F. Leheny
S. Das Sarma
S. Das Sarma
S. Das Sarma
S. Das Sarma
S. Das Sarma
S. Das Sarma
S. Das Sarma
S. Lyon
S.J. Manion
T. Kawamura
V.B. Campos
V.B. Campos
Publication date: 8 February 1996
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We theoretically study energy relaxation via LO-phonon emission in an excited one-dimensional electron gas confined in a GaAs quantum wire structure. We find that the inclusion of phonon renormalization effects in the theory extends the LO-phonon dominated loss regime down to substantially lower temperatures. We show that a simple plasmon-pole approximation works well for this problem, and discuss implications of our results for low temperature electron heating experiments in quantum wires.Comment: 10 pages, RevTex, 4 figures included. Also available at http://www-cmg.physics.umd.edu/~lzheng

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