English

Equilibrium Stochastic Delay Processes

Statistical Mechanics 2022-03-02 v3

Abstract

Stochastic processes with temporal delay play an important role in science and engineering whenever finite speeds of signal transmission and processing occur. However, an exact mathematical analysis of their dynamics and thermodynamics is available for linear models only. We introduce a class of stochastic delay processes with nonlinear time-local forces and linear time-delayed forces that obey fluctuation theorems and converge to a Boltzmann equilibrium at long times. From the point of view of control theory, such ``equilibrium stochastic delay processes'' are stable and energetically passive, by construction. Computationally, they provide diverse exact constraints on general nonlinear stochastic delay problems and can, in various situations, serve as a starting point for their perturbative analysis. Physically, they admit an interpretation in terms of an underdamped Brownian particle that is either subjected to a time-local force in a non-Markovian thermal bath or to a delayed feedback force in a Markovian thermal bath. We illustrate these properties numerically for a setup familiar from feedback cooling and point out experimental implications.

Keywords

Cite

@article{arxiv.2108.07136,
  title  = {Equilibrium Stochastic Delay Processes},
  author = {Viktor Holubec and Artem Ryabov and Sarah A. M. Loos and Klaus Kroy},
  journal= {arXiv preprint arXiv:2108.07136},
  year   = {2022}
}

Comments

32 pages, 10 figures, revised

R2 v1 2026-06-24T05:09:17.616Z