Massless phases for the villain model in d 3 / Paul Dario & Wei Wu.

Includes bibliographic references (pages 211-217).

Introduction -- Preliminaries -- Duality and Helffer-Sjostrand representation -- First-order expansion of the two-point function : overview of the proof -- Regularity theory for low temperature dual Villain model -- Quantitative convergence of the subadditive quantities -- Quantitative homogenization of the Green's matrix -- First-order expansion of the two-point function : technical lemmas -- A. List of notation and preliminary results -- B. Multiscale Poincare inequality -- C. Basic estimates on discrete convolutions.

"A major open question in statistical mechanics, known as the Gaussian spin wave conjecture, predicts that the low temperature phase of the Abelian spin systems with continuous symmetry behave like Gaussian free fields. In this paper we consider the classical Villain rotator model in Zd, d 3 at sufficiently low temperature, and prove that the truncated two-point function decays asymptotically as SxS2 d, with an algebraic rate of convergence. We also obtain the same asymptotic decay separately for the transversal two-point functions. This quantifies the spontaneous magnetization result for the Villain model at low temperatures and constitutes a first step toward a more precise understanding of the spin-wave conjecture. We believe that our method extends to finite range interactions, and to other Abelian spin systems and Abelian gauge theory in d 3. We also develop a quantitative perspective on homogenization of uniformly convex gradient Gibbs measures"--Abstract.

Also available online.

In English; abstract also in French.