Magnetic-field dependence of electron spin relaxation in n-type
  semiconductors

A.D. Margulis; A.G. Aronov; Avadh Saxena; Darryl L. Smith; E.L. Ivchenko; Franz X. Bronold; G. Fishman; Ivar Martin; J.-N. Chazalviel; J.M. Kikkawa; M.I. Dyakonov; M.W. Wu; N.R. Ogg; P.H. Song; R.J. Elliott; S.A. Wolf; V.G. Golubev; Wayne H. Lau

research

Magnetic-field dependence of electron spin relaxation in n-type semiconductors

Authors: A.D. Margulis
A.G. Aronov
Avadh Saxena
Darryl L. Smith
E.L. Ivchenko
Franz X. Bronold
G. Fishman
Ivar Martin
J.-N. Chazalviel
J.M. Kikkawa
M.I. Dyakonov
M.W. Wu
N.R. Ogg
P.H. Song
R.J. Elliott
S.A. Wolf
V.G. Golubev
Wayne H. Lau
Publication date: 6 December 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We present a theoretical investigation of the magnetic field dependence of the longitudinal (

T_1

) and transverse (

T_2

) spin relaxation times of conduction band electrons in n-type III-V semiconductors. In particular, we find that the interplay between the Dyakonov-Perel process and an additional spin relaxation channel, which originates from the electron wave vector dependence of the electron

g

-factor, yields a maximal

T_2

at a finite magnetic field. We compare our results with existing experimental data on n-type GaAs and make specific additional predictions for the magnetic field dependence of electron spin lifetimes.Comment: accepted for publication in PRB, minor changes to previous manuscrip

Similar works

Full text

Available Versions

Crossref

Last time updated on 02/01/2020