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Constraining quantum critical dynamics: 2+1D Ising model and beyond

arXiv:1501.03495 · doi:10.1103/PhysRevLett.114.177201

Abstract

Quantum critical (QC) phase transitions generally lead to the absence of quasiparticles. The resulting correlated quantum fluid, when thermally excited, displays rich universal dynamics. We establish non-perturbative constraints on the linear-response dynamics of conformal QC systems at finite temperature, in spatial dimensions above one. Specifically, we analyze the large frequency/momentum asymptotics of observables, which we use to derive powerful sum rules and inequalities. The general results are applied to the O(N) Wilson-Fisher fixed point, describing the QC Ising model when N = 1. We focus on the order parameter and scalar susceptibilities, and the dynamical shear viscosity. Connections to simulations, experiments and gauge theories are made.

4+7 pages, 1+2 figs. v3: Paper simplified & reorganized to improve clarity. New appendix on analytic continuation. Minor corrections & added references