Non-Equilibrium Magnetization in a Ballistic Quantum Dot

A. A. Abrikosov; D. Mailly; E. N. Bogachek; E. N. Bogachek; I. O. Kulik; L. Günter; L. P. Levy; L. P. Lévy; M. Büttiker; M. Jonson; R. I. Shekhter; T. Swahn; U. Murek; V. Chandrasekhar; Y. Avishai; Y. Gefen; Y. Imry; Yu. M. Galperin; Yu. M. Galperin

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Non-Equilibrium Magnetization in a Ballistic Quantum Dot

Authors: A. A. Abrikosov
D. Mailly
E. N. Bogachek
E. N. Bogachek
I. O. Kulik
L. Günter
L. P. Levy
L. P. Lévy
M. Büttiker
M. Jonson
R. I. Shekhter
T. Swahn
U. Murek
V. Chandrasekhar
Y. Avishai
Y. Gefen
Y. Imry
Yu. M. Galperin
Yu. M. Galperin
Publication date: 27 April 1994
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We show that Aharonov-Bohm (AB) oscillations in the magnetic moment of an integrable ballistic quantum dot can be destroyed by a time dependent magnetic flux. The effect is due to a nonequilibrium population of perfectly coherent electronic states. For real ballistic systems the equilibrization process, which involves a special type of inelastic electron backscattering, can be so ineffective, that AB oscillations are suppressed when the flux varies with frequency

\omega\sim

10

^7

-10

^8

s

^{-1}

. The effect can be used to measure relaxation times for inelastic backscattering.Comment: 11 pages LaTeX v3.14 with RevTeX v3.0, 3 post script figures available on request, APR 93-X2

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