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arxiv: 1510.02304 · v1 · pith:TNQ6B3UZnew · submitted 2015-10-08 · ❄️ cond-mat.stat-mech · cond-mat.soft

Fluctuation relations for equilibrium states with broken discrete or continuous symmetries

classification ❄️ cond-mat.stat-mech cond-mat.soft
keywords brokenrelationssymmetriessystemscontinuousdiscreteequilibriumfluctuations
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Isometric fluctuation relations are deduced for the fluctuations of the order parameter in equilibrium systems of condensed-matter physics with broken discrete or continuous symmetries. These relations are similar to their analogues obtained for non-equilibrium systems where the broken symmetry is time reversal. At equilibrium, these relations show that the ratio of the probabilities of opposite fluctuations goes exponentially with the symmetry-breaking external field and the magnitude of the fluctuations. These relations are applied to the Curie-Weiss, Heisenberg, and $XY$~models of magnetism where the continuous rotational symmetry is broken, as well as to the $q$-state Potts model and the $p$-state clock model where discrete symmetries are broken. Broken symmetries are also considered in the anisotropic Curie-Weiss model. For infinite systems, the results are calculated using large-deviation theory. The relations are also applied to mean-field models of nematic liquid crystals where the order parameter is tensorial. Moreover, their extension to quantum systems is also deduced.

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