A phase transition in excursions from infinity of the “fast” fragmentation-coalescence process

A.E. Kyprianou; Steven W. Pagett; Tim Rogers; Jason Schweinsberg

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A phase transition in excursions from infinity of the “fast” fragmentation-coalescence process

Andreas E. Kyprianou ^[1] ; Steven W. Pagett ^[1] ; Tim Rogers ^[1] ; Jason Schweinsberg ^[2]
1. [1] University of Bath
  
  University of Bath
  
  Reino Unido
2. [2] University of California (USA)
Localización: Annals of probability: An official journal of the Institute of Mathematical Statistics, ISSN 0091-1798, Vol. 45, Nº. 6, 1, 2017, págs. 3829-3849
Idioma: inglés
DOI: 10.1214/16-AOP1150
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Resumen
- An important property of Kingman’s coalescent is that, starting from a state with an infinite number of blocks, over any positive time horizon, it transitions into an almost surely finite number of blocks. This is known as “coming down from infinity”. Moreover, of the many different (exchangeable) stochastic coalescent models, Kingman’s coalescent is the “fastest” to come down from infinity. In this article, we study what happens when we counteract this “fastest” coalescent with the action of an extreme form of fragmentation. We augment Kingman’s coalescent, where any two blocks merge at rate, with a fragmentation mechanism where each block fragments at constant rate, into its constituent elements. We prove that there exists a phase transition at, between regimes where the resulting “fast” fragmentation-coalescence process is able to come down from infinity or not. In the case that we develop an excursion theory for the fast fragmentation-coalescence process out of which a number of interesting quantities can be computed explicitly.