Dimensional reduction and its breakdown in the three-dimensional long-range random-field Ising model

We investigate dimensional reduction, the property that the critical behavior of a system in the presence of quenched disorder in dimension d is the same as that of its pure counterpart in d - 2, and its breakdown in the case of the random-field Ising model in which both the interactions and the cor...

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Veröffentlicht in:Physical review. B, Condensed matter and materials physics Condensed matter and materials physics, 2013-07, Vol.88 (1), Article 014204
Hauptverfasser: Baczyk, Maxime, Tissier, Matthieu, Tarjus, Gilles, Sakamoto, Yoshinori
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Sprache:eng
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Zusammenfassung:We investigate dimensional reduction, the property that the critical behavior of a system in the presence of quenched disorder in dimension d is the same as that of its pure counterpart in d - 2, and its breakdown in the case of the random-field Ising model in which both the interactions and the correlations of the disorder are long ranged, i.e., power-law decaying. To some extent the power-law exponents play the role of spatial dimension in a short-range model, which allows us to probe the theoretically predicted existence of a nontrivial critical value separating a region where dimensional reduction holds from one where it is broken, while still considering the physical dimension d = 3. By extending our recently developed approach based on a nonperturbative functional renormalization group combined with a supersymmetric formalism, we find that such a critical value indeed exists, provided one chooses a specific relation between the decay exponents of the interactions and of the disorder correlations. This transition from dimensional reduction to its breakdown should therefore be observable in simulations and numerical analyses, if not experimentally.
ISSN:1098-0121
1550-235X
DOI:10.1103/PhysRevB.88.014204