2019 Impact factor 1.347
Condensed Matter and Complex Systems

EPJ B Colloquium - Ergodicity and large deviations in physical systems with stochastic dynamics

In ergodic physical systems, time-averaged quantities converge (for large times) to their ensemble-averaged values. Large deviation theory describes rare events where these time averages differ significantly from the corresponding ensemble averages. It allows estimation of the probabilities of these events, and their mechanisms, and has been applied to a wide range of physical systems, including exclusion processes, glassy materials, models of heat transport, proteins, climate models, and non-equilibrium quantum systems.

In a new Colloquium article published in EPJB, Dr Robert Jack (University of Cambridge, UK) outlines the application of large deviation theory to these systems, where it has yielded fresh insights into entropy production, current fluctuations, metastability, transport processes, and glassy behaviour. The article covers some recent developments and identifies general principles, discussing a selection of dynamical phase transitions, and highlighting some connections between large-deviation theory and optimal control theory.

Robert L. Jack (2020),
Ergodicity and large deviations in physical systems with stochastic dynamics
,
European Physical Journal B 93:74, DOI: 10.1140/epjb//e2020-100605-3

Editors-in-Chief:
E. Hernandez and H. Rieger
Thank you for the very fruitful and efficient collaboration. It has been a pleasure!!

Paul van Loosdrecht, Guest Editor Topical issue: Excitonic Processes in Condensed Matter, Nanostructured and Molecular Materials, 2013

ISSN (Print Edition): 1434-6028
ISSN (Electronic Edition): 1434-6036

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