Longtime behavior of the completely positively correlated Symbiotic Branching Model*.

Patric Karl Glöde; Leonid Mytnik

doi:10.1214/24-EJP1195

Longtime behavior of the completely positively correlated Symbiotic Branching Model^*.

Patric Karl Glöde, Leonid Mytnik

Data and Decision Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

We study the longtime behavior of a continuous state Symbiotic Branching Model (SBM). SBM can be seen as a unified model generalizing the Stepping Stone Model, Mutually Catalytic Branching Processes, and the Parabolic Anderson Model. It was introduced by Etheridge and Fleischmann [16]. The key parameter in these models is the local correlation ρ between the driving Brownian Motions. The longtime behavior of all SBM exhibits a dichotomy between coexistence and non-coexistence of the two populations depending on the recurrence and transience of the migration and also in many cases on the branching rate. The most significant gap in the understanding of the longtime behavior of SBM is for positive correlations in the transient regime. In this article we give a precise description of the longtime behavior of the SBM with ρ = 1 with not necessarily identical initial conditions.

Original language	English
Article number	129
Journal	Electronic Journal of Probability
Volume	29
DOIs	https://doi.org/10.1214/24-EJP1195
State	Published - 2024

Keywords

coexistence
mutually catalytic branching
parabolic Anderson model
symbiotic branching

ASJC Scopus subject areas

Statistics and Probability
Statistics, Probability and Uncertainty

Access to Document

10.1214/24-EJP1195

Cite this

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title = "Longtime behavior of the completely positively correlated Symbiotic Branching Model*.",

abstract = "We study the longtime behavior of a continuous state Symbiotic Branching Model (SBM). SBM can be seen as a unified model generalizing the Stepping Stone Model, Mutually Catalytic Branching Processes, and the Parabolic Anderson Model. It was introduced by Etheridge and Fleischmann [16]. The key parameter in these models is the local correlation ρ between the driving Brownian Motions. The longtime behavior of all SBM exhibits a dichotomy between coexistence and non-coexistence of the two populations depending on the recurrence and transience of the migration and also in many cases on the branching rate. The most significant gap in the understanding of the longtime behavior of SBM is for positive correlations in the transient regime. In this article we give a precise description of the longtime behavior of the SBM with ρ = 1 with not necessarily identical initial conditions.",

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