Comment on `Fluctuation-dominated phase ordering at a mixed order transition'
Statistical Mechanics
2022-03-09 v2
Abstract
Renewal processes generated by a power-law distribution of intervals with tail index less than unity are genuinely non-stationary. This issue is illustrated by a critical review of the recent paper by Barma, Majumdar and Mukamel 2019 \textit{J.~Phys.~A} {\bf 52} 254001, devoted to the investigation of the properties of a specific one-dimensional equilibrium spin system with long-range interactions. We explain why discarding the non-stationarity of the process underlying the model leads to an incorrect expression of the critical spin-spin correlation function, even when the system, subjected to periodic boundary conditions, is translation invariant.
Cite
@article{arxiv.1909.11540,
title = {Comment on `Fluctuation-dominated phase ordering at a mixed order transition'},
author = {Claude Godrèche},
journal= {arXiv preprint arXiv:1909.11540},
year = {2022}
}
Comments
8 pages, 1 figure