Self-Organized Bistability Associated With First-Order Phase Transitions
Statistical Mechanics
2016-06-22 v2 Biological Physics
Quantitative Methods
Abstract
Self-organized criticality elucidates the conditions under which physical and biological systems tune themselves to the edge of a second-order phase transition, with scale invariance. Motivated by the empirical observation of bimodal distributions of activity in neuroscience and other fields, we propose and analyze a theory for the self-organization to the point of phase-coexistence in systems exhibiting a first-order phase transition. It explains the emergence of regular avalanches with attributes of scale-invariance which coexist with huge anomalous ones, with realizations in many fields.
Cite
@article{arxiv.1605.05161,
title = {Self-Organized Bistability Associated With First-Order Phase Transitions},
author = {Serena di Santo and Raffaella Burioni and Alessandro Vezzani and Miguel A. Muñoz},
journal= {arXiv preprint arXiv:1605.05161},
year = {2016}
}
Comments
5 pages, 3 figures