Glassy timescale divergence and anomalous coarsening in a kinetically constrained spin chain

Abstract

We analyse the out of equilibrium behavior of an Ising spin chain with an asymmetric kinetic constraint after a quench to a low temperature T. In the limit T 0, we provide an exact solution of the resulting coarsening process. The equilibration time exhibits a `glassy' divergence =(const/T2) (popular as an alternative to the Vogel-Fulcher law), while the average domain length grows with a temperature dependent exponent, ~ tT 2. We show that the equilibration time also sets the timescale for the linear response of the system at low temperatures.

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