Restriction and mixing properties of interacting particle systems with unbounded range
Abstract
We consider interacting particle systems with unbounded interaction range on general countably infinite graphs S and prove explicit non-asymptotic error bounds for approximations of the infinite-volume dynamics by systems of finitely many interacting particles. Moreover, we also provide non-asymptotic quantitative bounds on the spatial decay of correlations at times t>0 and then apply these results to show that interacting particle systems on Z whose interaction strengths decays exponentially fast cannot spontaneously break the time-translation symmetry, neither in the strong, nor in the weak sense.
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