We study a class of close-packed dimer models on the square lattice, in the presence of small but extensive perturbations that make them non-determinantal. Examples include the 6-vertex model close to the free-fermion point, and the dimer model with plaquette interaction previously analyzed in previous works. By tuning the edge weights, we can impose a non-zero average tilt for the height function, so that the considered models are in general not symmetric under discrete rotations and reflections. In the determinantal case, height fluctuations in the massless (or 'liquid') phase scale to a Gaussian log-correlated field and their amplitude is a universal constant, independent of the tilt. When the perturbation strength lambda is sufficiently small we prove, by fermionic constructive Renormalization Group methods, that log-correlations survive, with amplitudeAthat, generically, depends non-trivially and non-universally on lambda and on the tilt. On the other hand,Asatisfies a universal scaling relation ('Haldane' or 'Kadanoff' relation), saying that it equals the anomalous exponent of the dimer-dimer correlation.
Non-integrable Dimers: Universal Fluctuations of Tilted Height Profiles / A. Giuliani, V. Mastropietro, F.L. Toninelli. - In: COMMUNICATIONS IN MATHEMATICAL PHYSICS. - ISSN 0010-3616. - 377:3(2020 Aug), pp. 1883-1959. [10.1007/s00220-020-03760-x]
Non-integrable Dimers: Universal Fluctuations of Tilted Height Profiles
V. MastropietroSecondo
;
2020
Abstract
We study a class of close-packed dimer models on the square lattice, in the presence of small but extensive perturbations that make them non-determinantal. Examples include the 6-vertex model close to the free-fermion point, and the dimer model with plaquette interaction previously analyzed in previous works. By tuning the edge weights, we can impose a non-zero average tilt for the height function, so that the considered models are in general not symmetric under discrete rotations and reflections. In the determinantal case, height fluctuations in the massless (or 'liquid') phase scale to a Gaussian log-correlated field and their amplitude is a universal constant, independent of the tilt. When the perturbation strength lambda is sufficiently small we prove, by fermionic constructive Renormalization Group methods, that log-correlations survive, with amplitudeAthat, generically, depends non-trivially and non-universally on lambda and on the tilt. On the other hand,Asatisfies a universal scaling relation ('Haldane' or 'Kadanoff' relation), saying that it equals the anomalous exponent of the dimer-dimer correlation.
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