Electron Spin Decoherence in Bulk and Quantum Well Zincblende
  Semiconductors

A. Bournel; A. Tackeuchi; D. Divincenzo; E.L. Ivchenko; G. Prinz; G. Prinz; J. T. Olesberg; J. Wagner; J.M. Kikkawa; J.M. Kikkawa; J.M. Kikkawa; J.T. Hyland; K.C. Hall; K.C. Hall; L. Sham; L. Vervoort; L. Wissinger; M. Cardona; M.I. D’yakonov; M.I. D’yakonov; M.I. D’yakonov; Michael E. Flatté; O. Madelung; P. Pfeffer; P. Pfeffer; P. Pfeffer; P.Y. Yu; R. Tackeuchi; R. Terauchi; R. Winkler; R.S. Britton; Wayne H. Lau; Y. Yafet

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Electron Spin Decoherence in Bulk and Quantum Well Zincblende Semiconductors

Authors: A. Bournel
A. Tackeuchi
D. Divincenzo
E.L. Ivchenko
G. Prinz
G. Prinz
J. T. Olesberg
J. Wagner
J.M. Kikkawa
J.M. Kikkawa
J.M. Kikkawa
J.T. Hyland
K.C. Hall
K.C. Hall
L. Sham
L. Vervoort
L. Wissinger
M. Cardona
M.I. D’yakonov
M.I. D’yakonov
M.I. D’yakonov
Michael E. Flatté
O. Madelung
P. Pfeffer
P. Pfeffer
P. Pfeffer
P.Y. Yu
R. Tackeuchi
R. Terauchi
R. Winkler
R.S. Britton
Wayne H. Lau
Y. Yafet
Publication date: 1 January 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

A theory for longitudinal (T1) and transverse (T2) electron spin coherence times in zincblende semiconductor quantum wells is developed based on a non-perturbative nanostructure model solved in a fourteen-band restricted basis set. Distinctly different dependences of coherence times on mobility, quantization energy, and temperature are found from previous calculations. Quantitative agreement between our calculations and measurements is found for GaAs/AlGaAs, InGaAs/InP, and GaSb/AlSb quantum wells.Comment: 11 pages, 3 figure

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