Abstract
We provide a many-to-few formula in the general setting of non-local branching Markov processes. This formula allows one to compute expectations of k-fold sums over functions of the population at k different times. The result generalises [13] to the non-local setting, as introduced in [11] and [8]. As an application, we consider the case when the branching process is critical, and conditioned to survive for a large time. In this setting, we prove a general formula for the limiting law of the death time of the most recent common ancestor of two particles selected uniformly from the population at two different times, as . Moreover, we describe the limiting law of the population sizes at two different times, in the same asymptotic regime.
Funding Statement
This work was partially supported by by EPSRC grant EP/W026899/1, UKRI Future Leader’s Fellowship MR/W008513/1, and the “PHC Alliance” programme (project number: 47867UJ), funded by the French Ministry for Europe and Foreign Affairs, the French Ministry for Higher Education and Research and the UK Department for Business, Energy and Industrial Strategy.
Acknowledgments
The authors would like to thank the anonymous referee for their detailed comments and suggestions which helped us to improve the exposition of this article.
Citation
Simon C. Harris. Emma Horton. Andreas E. Kyprianou. Ellen Powell. "Many-to-few for non-local branching Markov process." Electron. J. Probab. 29 1 - 26, 2024. https://doi.org/10.1214/24-EJP1098
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