Nonreciprocal Disorder Prevents Zero-Temperature Freezing in a Ferromagnet
Abstract
Nonreciprocal interactions underpin diverse nonequilibrium phenomena, yet the effects of quenched nonreciprocity in extended systems remain largely unexplored. We study a 2d Ising model with randomly distributed nonreciprocal bonds at density p, finding a continuous nonequilibrium transition down to T=0 with finite pc. A gauge-invariance argument yields pc(T)≤1/2, and mean-field theory predicts a qualitatively correct phase diagram. Unlike equilibrium disordered models, the zero-temperature dynamics remains active, with athermal rare-region reversals and logarithmic "activated" coarsening.
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