Equilibration and coarsening in the quantum O(N) model at infinite N

Anushya Chandran, Arun Nanduri, S. S. Gubser, and S. L. Sondhi
Phys. Rev. B 88, 024306 – Published 31 July 2013

Abstract

The quantum O(N) model in the infinite-N limit is a paradigm for symmetry breaking. Qualitatively, its phase diagram is an excellent guide to the equilibrium physics for more realistic values of N in varying spatial dimensions (d>1). Here, we investigate the physics of this model out of equilibrium, specifically its response to global quenches starting in the disordered phase. If the model were to exhibit equilibration, the late-time state could be inferred from the finite-temperature phase diagram. In the infinite-N limit, we show that not only does the model not lead to equilibration on account of an infinite number of conserved quantities, it also does not relax to a generalized Gibbs ensemble (GGE) consistent with these conserved quantities. Instead, an infinite number of new conservation laws emerge at late times and the system relaxes to an emergent GGE consistent with these. Nevertheless, we still find that the late-time states following quenches bear strong signatures of the equilibrium phase diagram. Notably, we find that the model exhibits coarsening to a nonequilibrium critical state only in dimensions d>2, that is, if the equilibrium phase diagram contains an ordered phase at nonzero temperatures.

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  • Received 30 May 2013

DOI:https://doi.org/10.1103/PhysRevB.88.024306

©2013 American Physical Society

Authors & Affiliations

Anushya Chandran, Arun Nanduri, S. S. Gubser, and S. L. Sondhi

  • Department of Physics, Princeton University, Princeton, New Jersey 08544, USA

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Vol. 88, Iss. 2 — 1 July 2013

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