Abstract
The Discrete Gaussian model is the lattice Gaussian free field conditioned to be integer-valued. In two dimensions and at sufficiently high temperature, we show that its macroscopic scaling limit on the torus is a multiple of the Gaussian free field. Our proof starts from a single renormalisation group step after which the integer-valued field becomes a smooth field, which we then analyse using the renormalisation group method.
This paper also provides the foundation for the construction of the scaling limit of the infinite-volume gradient Gibbs state of the Discrete Gaussian model in the companion paper. Moreover, we develop all estimates for general finite-range interaction with sharp dependence on the range. We expect these estimates to prepare for a future analysis of the spread-out version of the Discrete Gaussian model at its critical temperature.
Funding Statement
R.B. was supported by the European Research Council under the European Union’s Horizon 2020 research and innovation programme (grant agreement No. 851682 SPINRG).
J.P. was supported by the Cambridge doctoral training centre Mathematics of Information.
Acknowledgment
R.B. acknowledges the hospitality of the Department of Mathematics at McGill University where part of this work was carried out.
Citation
Roland Bauerschmidt. Jiwoon Park. Pierre-François Rodriguez. "The Discrete Gaussian model, I. Renormalisation group flow at high temperature." Ann. Probab. 52 (4) 1253 - 1359, July 2024. https://doi.org/10.1214/23-AOP1658
Information
