Fabio Caccioli, Silvio Franz, Matteo Marsili
Published 2008-04-09, updated 2008-07-31Version 2
We consider the coarsening properties of a kinetic Ising model with a memory field. The probability of a spin-flip depends on the persistence time of the spin in a state. The more a spin has been in a given state, the less the spin-flip probability is. We numerically studied the growth and persistence properties of such a system on a two dimensional square lattice. The memory introduces energy barriers which freeze the system at zero temperature. At finite temperature we can observe an apparent arrest of coarsening for low temperature and long memory length. However, since the energy barriers introduced by memory are due to local effects, there exists a timescale on which coarsening takes place as for the Ising model. Moreover the two point correlation functions of the Ising model with and without memory are the same, indicating that they belong to the same universality class.
Comments: 10 pages, 7 figures; some figures and some comments added
Journal: J. Stat. Mech.: Theor. Exp. (2008) P07006
Field behavior of an Ising model with aperiodic interactions
Phase transitions in Ising model on a Euclidean network
Decay of the metastable phase in d=1 and d=2 Ising models
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