The wave speed of an FKPP equation with jumps via coordinated branching

Tommaso Rosati; András Tóbiás

doi:10.1214/23-EJP958

2023 The wave speed of an FKPP equation with jumps via coordinated branching

Tommaso Rosati, András Tóbiás

Author Affiliations +

Electron. J. Probab. 28: 1-29 (2023). DOI: 10.1214/23-EJP958

Abstract

We consider a Fisher–KPP equation with nonlinear selection driven by a Poisson random measure. We prove that the equation admits a unique wave speed $s > 0$ given by

$\frac{s^{2}}{2} = \int_{[0, 1]} \frac{log (1 + y)}{y} R (d y),$

where $R$ is the intensity of the impacts of the driving noise. Our arguments are based on upper and lower bounds via a quenched duality with a coordinated system of branching Brownian motions.

Funding Statement

TR gratefully acknowledges financial support through the Royal Society grant RP\R1\191065. This research was partially supported by the ERC Consolidator Grant 772466 “NOISE”.

Acknowledgments

We thank J. Blath, M. Hammer, N. Hansen, F. Hermann, A. González Casanova, N. Kurt, B. Mallein, F. Nie and M. Wilke Berenguer for interesting discussions and comments. We also thank two anonymous reviewers for insightful suggestions and corrections.

Citation

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Tommaso Rosati. András Tóbiás. "The wave speed of an FKPP equation with jumps via coordinated branching." Electron. J. Probab. 28 1 - 29, 2023. https://doi.org/10.1214/23-EJP958