Open Access
2023 Contact process in an evolving random environment
Marco Seiler, Anja Sturm
Author Affiliations +
Electron. J. Probab. 28: 1-61 (2023). DOI: 10.1214/23-EJP1002

Abstract

In this paper we introduce a contact process in an evolving random environment (CPERE) on a connected and transitive graph with bounded degree, where we assume that this environment is described through an ergodic spin systems with finite range. We show that under a certain growth condition the phase transition of survival is independent of the initial configuration of the process. We study the invariant laws of the CPERE and show that under aforementioned growth condition the phase transition for survival coincides with the phase transition of non-triviality of the upper invariant law. Furthermore, we prove continuity properties for the survival probability and derive equivalent conditions for complete convergence, in an analogous way as for the classical contact process. We then focus on the special case, where the evolving random environment is described through a dynamical percolation. We show that the contact process on a dynamical percolation on the d-dimensional integers dies out almost surely at criticality and complete convergence holds for all parameter choices. In the end we derive some comparison results between a dynamical percolation and ergodic spin systems with finite range such that we get bounds on the survival probability of a contact process in an evolving random environment and we determine in this case that complete convergence holds in a certain parameter regime.

Acknowledgments

We would like to thank the anonymous referees for carefully reading the manuscript and for giving us many useful suggestions. This helped us greatly to improve the manuscript. We would like to especially thank one of the referees for pointing out an error in the proof of Proposition 2.6. Fixing the error even allowed us to slightly strengthen the statement.

Citation

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Marco Seiler. Anja Sturm. "Contact process in an evolving random environment." Electron. J. Probab. 28 1 - 61, 2023. https://doi.org/10.1214/23-EJP1002

Information

Received: 30 March 2022; Accepted: 3 August 2023; Published: 2023
First available in Project Euclid: 9 October 2023

MathSciNet: MR4651886
arXiv: 2203.16270
Digital Object Identifier: 10.1214/23-EJP1002

Subjects:
Primary: 60K35
Secondary: 05C80 , 82C22

Keywords: contact process , dynamical graphs , evolving random environment , interacting particle systems , phase transition

Vol.28 • 2023
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