Theory of Hyperuniformity at the Absorbing State Transition

Abstract

Hyperuniformity, whereby the static structure factor (or density correlator) obeys S(q) q with > 0, emerges at criticality in systems having multiple absorbing states, such as periodically sheared suspensions. These lie in the conserved directed percolation (C-DP) universality class, for which analytic results for are lacking. Specifically, appears inaccessible within an exact `interfacial mapping' that yields other C-DP exponents via functional renormalization group (FRG). Here, using Doi-Peliti field theory for interacting particles and perturbative RG about a Gaussian model, we find = 0+ and = 2ε/9 + O(ε2) in dimension d>4 and d=4-ε respectively. The latter disproves a previously conjectured scaling relation for . We show how hyperuniformity emerges from anticorrelation of strongly fluctuating active and passive densities. Our calculations also yield the remaining C-DP exponents without recourse to functional RG methods.

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