Goldstone Mode Relaxation in a Quantum Hall Ferromagnet due to Hyperfine
  Interaction with Nuclei

A. B. Dzyubenko; A. B. Dzyubenko; A. B. Van’kov; D. Fukuoka; D. Paget; I. A. Merkulov; I. V. Kukushkin; I. V. Kukushkin; J. G. Groshaus; J. P. Longo; L. D. Landau; M. I. Dyakonov; P. Raghavan; S. Dickmann; S. Dickmann; S. Dickmann; S. Dickmann; S. Dickmann; S. Dickmann; S. M. Girvin; S. M. Girvin; V. E. Zhitomirskii; Y. Gallais; Yu. A. Bychkov; Yu. A. Nefyodov

research

Goldstone Mode Relaxation in a Quantum Hall Ferromagnet due to Hyperfine Interaction with Nuclei

Authors: A. B. Dzyubenko
A. B. Dzyubenko
A. B. Van’kov
D. Fukuoka
D. Paget
I. A. Merkulov
I. V. Kukushkin
I. V. Kukushkin
J. G. Groshaus
J. P. Longo
L. D. Landau
M. I. Dyakonov
P. Raghavan
S. Dickmann
S. Dickmann
S. Dickmann
S. Dickmann
S. Dickmann
S. Dickmann
S. M. Girvin
S. M. Girvin
V. E. Zhitomirskii
Y. Gallais
Yu. A. Bychkov
Yu. A. Nefyodov
Publication date: 7 June 2011
Publisher: 'Pleiades Publishing Ltd'
Doi

Abstract

Spin relaxation in quantum Hall ferromagnet regimes is studied. As the initial non-equilibrium state, a coherent deviation of the spin system from the

{\vec B}

direction is considered and the breakdown of this Goldstone-mode state due to hyperfine coupling to nuclei is analyzed. The relaxation occurring non-exponentially with time is studied in terms of annihilation processes in the "Goldstone condensate" formed by "zero spin excitons". The relaxation rate is calculated analytically even if the initial deviation is not small. This relaxation channel competes with the relaxation mechanisms due to spin-orbit coupling, and at strong magnetic fields it becomes dominating.Comment: 8 page

Similar works

Full text

Available Versions

Crossref

info:doi/10.1134%2Fs0021364011...

Last time updated on 03/01/2020