Claudio Castellano, Federico Corberi
Published 2000-12-05Version 1
We study the phase-separation dynamics of a two-dimensional Ising model where A and B particles can only exchange position with a vacancy. In a wide range of temperatures the kinetics is dominated, during a long preasymptotic regime, by diffusion processes of particles along domain interfaces. The dynamical exponent z associated to this mechanism differs from the one usually expected for Kawasaki dynamics and is shown to assume different values depending on temperature and relative AB concentration. At low temperatures, in particular, domains grow as t^{1/2}, for equal AB volume fractions.
Comments: LaTeX, 5 pages, 4 figures, to appear on Phys. Rev. B
Journal: Phys. Rev. B 63, 060102 (2001).
A Note on Stable States of Dipolar Systems at Low Temperatures
Prethermalization at low temperature: the scent of a spontaneously broken symmetry
Statistics of the maximal distance and momentum in a trapped Fermi gas at low temperature
