Ordering kinetics with long-range interactions: interpolating between voter and Ising models

Abstract

We study the ordering kinetics of a generalization of the voter model with long-range interactions, the p-voter model, in one dimension. It is defined in terms of boolean variables Si, agents or spins, located on sites i of a lattice, each of which takes in an elementary move the state of the majority of p other agents at distances r chosen with probability P(r) r-α. For p=2 the model can be exactly mapped onto the case with p=1, which amounts to the voter model with long-range interactions decaying algebraically. For 3 p<∞, instead, the dynamics falls into the universality class of the one-dimensional Ising model with long-ranged coupling constant J(r)=P(r) quenched to small finite temperatures. In the limit p ∞, a crossover to the (different) behavior of the long-range Ising model quenched to zero temperature is observed. Since for p > 3 a closed set of differential equations cannot be found, we employed numerical simulations to address this case.

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