Growth-fragmentation processes describe a family of particles which can grow larger or smaller with time, and occasionally split in a conservative manner. In the self-similar case, it is known that a simple Malthusian condition ensures that the process does not locally explode, in the sense that for all times, the masses of all the particles can be listed in non-increasing order. We shall present here the converse: when this Malthusian condition is not verified, then the growth-fragmentation process explodes almost surely. Our proof involves using the additive martingale to bias the probability measure and obtain a spine decomposition of the process, as well as properties of self-similar Markov processes. Based on a joint work with Robin St...
Growth-fragmentation processes describe the evolution of systems of cells which grow continuously an...
A self-similar growth-fragmentation describes the evolution of particles that grow and split as time...
The genealogical structure of self-similar growth-fragmentations can be described in terms of a bran...
Markovian growth-fragmentation processes describe a family of particles which can grow larger or sma...
The self-similar growth-fragmentation equation describes the evolution of a medium in which particle...
We look at models of fragmentation with growth. In such a model, one has a number of independent cel...
Consider a Markov process X on [0, ∞) which has only negative jumps and converges as time tends to i...
The subject of this paper is a fragmentation equation with non-conservative solutions, some mass bei...
This thesis treats stochastic aspects of fragmentation processes when growth and/or immigration of p...
The growth-fragmentation equation models systems of particles that grow and split as time proceeds. ...
The growth-fragmentation equation models systems of particles that grow and reproduce as time passes...
Growth-fragmentation processes are stochastic processes, recently introduced by Bertoin, which descr...
The purpose of the present work is twofold. First, we develop the theory of general self-similar gro...
Fragmentation processes are part of a broad class of models describing the evolution of a system of ...
Growth-fragmentation processes model systems of cells that grow continuously over time and then frag...
Growth-fragmentation processes describe the evolution of systems of cells which grow continuously an...
A self-similar growth-fragmentation describes the evolution of particles that grow and split as time...
The genealogical structure of self-similar growth-fragmentations can be described in terms of a bran...
Markovian growth-fragmentation processes describe a family of particles which can grow larger or sma...
The self-similar growth-fragmentation equation describes the evolution of a medium in which particle...
We look at models of fragmentation with growth. In such a model, one has a number of independent cel...
Consider a Markov process X on [0, ∞) which has only negative jumps and converges as time tends to i...
The subject of this paper is a fragmentation equation with non-conservative solutions, some mass bei...
This thesis treats stochastic aspects of fragmentation processes when growth and/or immigration of p...
The growth-fragmentation equation models systems of particles that grow and split as time proceeds. ...
The growth-fragmentation equation models systems of particles that grow and reproduce as time passes...
Growth-fragmentation processes are stochastic processes, recently introduced by Bertoin, which descr...
The purpose of the present work is twofold. First, we develop the theory of general self-similar gro...
Fragmentation processes are part of a broad class of models describing the evolution of a system of ...
Growth-fragmentation processes model systems of cells that grow continuously over time and then frag...
Growth-fragmentation processes describe the evolution of systems of cells which grow continuously an...
A self-similar growth-fragmentation describes the evolution of particles that grow and split as time...
The genealogical structure of self-similar growth-fragmentations can be described in terms of a bran...