Critical phenomena in systems with long-range-correlated quenched disorder

Abel Weinrib and B. I. Halperin
Phys. Rev. B 27, 413 – Published 1 January 1983
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Abstract

As a model for a phase transition in an inhomogeneous system, we consider a system where the local transition temperature varies in space, with a correlation function obeying a power law xa for large separations x. We extend the Harris criterion for this case, finding that for a<d (where d is the spatial dimension) the disorder is irrelevant if aν2>0, while if a>d we recover the usual Harris criterion: The disorder is irrelevant if dν2=α>0. An m-vector system of this type is studied with the use of a renormalization-group expansion in ε=4d and δ=4a. We find a new long-range-disorder fixed point in addition to the short-range-disorder and pure fixed points found previously. The crossover between fixed points is found to follow the extended Harris criterion. The new fixed point has complex eigenvalues, leading to oscillating corrections to scaling, and has a correlation-length exponent ν=2a. We argue that this new scaling relation is exact and applies more generally than just to the specific model. We show that the extended Harris criterion also applies to percolation with long-range-correlated site or bond-occupation probabilities, so that the scaling law should be obeyed by such systems. Results for the percolation properties of the triangular Ising model are in agreement with these predictions.

  • Received 30 July 1982

DOI:https://doi.org/10.1103/PhysRevB.27.413

©1983 American Physical Society

Authors & Affiliations

Abel Weinrib and B. I. Halperin

  • Department of Physics, Harvard University, Cambridge, Massachusetts 02138

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Vol. 27, Iss. 1 — 1 January 1983

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