Daniel Hexner, Dov Levine
Published 2016-11-08Version 1
We consider driven many-particle models which have a phase transition between an active and an absorbing phase. Like previously studied models, we have particle conservation, but here we introduce an additional symmetry - when two particles interact, we give them stochastic kicks which conserve center of mass. We find that the density fluctuations in the active phase decay in the fastest manner possible for a disordered isotropic system, and we present arguments that the large scale fluctuations are determined by a competition between a noise term which generates fluctuations, and a deterministic term which reduces them. Our results may be relevant to shear experiments and may further the understanding of hyperuniformity which occurs at the critical point.
Phase transitions in generalized chiral or Stiefel's models
Phase Transition in a Conserved-Mass Model of Aggregation and Dissociation
Effects of constraints on the phase transition to Bose-Einstein condensation
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