Nonequilibrium Criticality at the Onset of Time-Crystalline Order

Abstract

We explore the phase transitions at the onset of time-crystalline order in O(N) models driven out-of-equilibrium. The spontaneous breaking of time translation symmetry and its Goldstone mode are captured by an effective description with O(N)× SO(2) symmetry. Using the renormalization group and the ε=4-d expansion in a leading two-loop analysis, we identify a new non-equilibrium universality class. Strikingly, it controls the long-distance physics no matter how small the microscopic breaking of equilibrium conditions is. The O(N=2)× SO(2) symmetry group is realized for magnon condensation in pumped yttirum iron garnet (YIG) films and in exciton-polariton systems with a polarization degree of freedom.

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