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Journal Articles Communications on Pure and Applied Mathematics Year : 2020

DLR equations and rigidity for the Sine-beta process

Abstract

We investigate Sine β , the universal point process arising as the thermodynamic limit of the microscopic scale behavior in the bulk of one-dimensional log-gases, or β-ensembles, at inverse temperature β > 0. We adopt a statistical physics perspective, and give a description of Sine β using the Dobrushin-Landford-Ruelle (DLR) formalism by proving that it satisfies the DLR equations: the restriction of Sine β to a compact set, conditionally to the exterior configuration, reads as a Gibbs measure given by a finite log-gas in a potential generated by the exterior configuration. In short, Sine β is a natural infinite Gibbs measure at inverse temperature β > 0 associated with the logarithmic pair potential interaction. Moreover, we show that Sine β is number-rigid and tolerant in the sense of Ghosh-Peres, i.e. the number, but not the position, of particles lying inside a compact set is a deterministic function of the exterior configuration. Our proof of the rigidity differs from the usual strategy and is robust enough to include more general long range interactions in arbitrary dimension.
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Dates and versions

hal-01954367 , version 1 (13-12-2018)

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David Dereudre, Adrien Hardy, Thomas Leblé, Mylène Maïda. DLR equations and rigidity for the Sine-beta process. Communications on Pure and Applied Mathematics, 2020, ⟨10.1002/cpa.21963⟩. ⟨hal-01954367⟩
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