Spin Waves in Disordered III-V Diluted Magnetic Semiconductors

A. Chattopadhyay; A. Van Esch; A.K. Bhattacharjee; B. Beschoten; B. Grandidier; G. Lehman; G. Zarand; H. Ohno; H. Ohno; J. König; J. Okabayashi; J. Schliemann; K.M. Yu; M. Takahashi; M.P. Kennett; M.P. Kennett; Mona Berciu; Mona Berciu; N. Theodoropoulos; P.E. Blochl; R. N. Bhatt; R.N. Bhatt; R.N. Bhatt; R.N. Bhatt; S. Sanvito; S. Sanvito; T. Dietl; T. Dietl; T. Hayashi; T. Jungwirth; Y. Nagai

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Spin Waves in Disordered III-V Diluted Magnetic Semiconductors

Authors: A. Chattopadhyay
A. Van Esch
A.K. Bhattacharjee
B. Beschoten
B. Grandidier
G. Lehman
G. Zarand
H. Ohno
H. Ohno
J. König
J. Okabayashi
J. Schliemann
K.M. Yu
M. Takahashi
M.P. Kennett
M.P. Kennett
Mona Berciu
Mona Berciu
N. Theodoropoulos
P.E. Blochl
R. N. Bhatt
R.N. Bhatt
R.N. Bhatt
R.N. Bhatt
S. Sanvito
S. Sanvito
T. Dietl
T. Dietl
T. Hayashi
T. Jungwirth
Y. Nagai
Publication date: 3 April 2002
Publisher: 'American Physical Society (APS)'
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Abstract

We propose a new scheme for numerically computing collective-mode spectra for large-size systems, using a reformulation of the Random Phase Approximation. In this study, we apply this method to investigate the spectrum and nature of the spin-waves of a (III,Mn)V Diluted Magnetic Semiconductor. We use an impurity band picture to describe the interaction of the charge carriers with the local Mn spins. The spin-wave spectrum is shown to depend sensitively on the positional disorder of the Mn atoms inside the host semiconductor. Both localized and extended spin-wave modes are found. Unusual spin and charge transport is implied.Comment: 14 pages, including 11 figure

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