Blocking and Persistence in the Zero-Temperature Dynamics of Homogeneous and Disordered Ising Models

C.M. Newman (Courant Institute of Mathematical Sciences; D.L. Stein (Departments of Physics; Mathematics; New York University); University of Arizona)

arxiv: cond-mat/9904208 · v1 · submitted 1999-04-14 · ❄️ cond-mat.dis-nn · cond-mat.stat-mech· math.PR

Blocking and Persistence in the Zero-Temperature Dynamics of Homogeneous and Disordered Ising Models

C.M. Newman (Courant Institute of Mathematical Sciences , New York University) , D.L. Stein (Departments of Physics , Mathematics , University of Arizona) This is my paper

classification ❄️ cond-mat.dis-nn cond-mat.stat-mechmath.PR

keywords blockinghomogeneousdecaysdisordereddynamicsinfinityisinglattice

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A ``persistence'' exponent theta has been extensively used to describe the nonequilibrium dynamics of spin systems following a deep quench: for zero-temperature homogeneous Ising models on the d-dimensional cubic lattice, the fraction p(t) of spins not flipped by time t decays to zero like t^[-theta(d)] for low d; for high d, p(t) may decay to p(infinity)>0, because of ``blocking'' (but perhaps still like a power). What are the effects of disorder or changes of lattice? We show that these can quite generally lead to blocking (and convergence to a metastable configuration) even for low d, and then present two examples --- one disordered and one homogeneous --- where p(t) decays exponentially to p(infinity).

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Blocking and Persistence in the Zero-Temperature Dynamics of Homogeneous and Disordered Ising Models

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