We study branching processes of independently splitting particles in the continuous time setting. If time is calibrated such that particles live on average one unit of time, the corresponding transition rates are fully determined by the generating function f for the offspring number of a single particle. We are interested in the defective case f (1) = 1 - epsilon, where each splitting particle with probability epsilon is able to terminate the whole branching process. A branching process [Z(t)}(t >= 0) will be called extendable if f (q) = q and f (r) = r for some
A spatial branching process is considered in which particles have a lifetime law with a tail index s...
each entity is equipped with a finite set of private continuous variables, called clocks. Clocks gro...
Multitype branching processes and Feller diffusion processes are conditioned on very late extinction...
We study branching processes of independently splitting particles in the continuous time setting. If...
It is well known that the behaviour of a branching process is completely described by the generatin...
Abstract. This paper is devoted to studying an extended class of time-continuous branching processes...
The notion of stability can be generalised to point processes by defining the scaling operation in a...
Continuous state branching processes arise as rescaled limits of discrete branching ones. Those proc...
We consider branching processes consisting of particles (individuals) of two types (type and type )...
We consider a particle system in continuous time, a discrete population, with spatial motion, and no...
International audienceWe are interested in the dynamic of a structured branching population where th...
We study analytically the order and gap statistics of particles at time t for the one dimensional br...
We explore the relationship between branching processes and random sums of indicators. As a tool for...
We consider continuous state branching processes (CSBP) with additional multi-plicative jumps modeli...
We consider a branching stable process with positive jumps, i.e. a continuous-time branching process...
A spatial branching process is considered in which particles have a lifetime law with a tail index s...
each entity is equipped with a finite set of private continuous variables, called clocks. Clocks gro...
Multitype branching processes and Feller diffusion processes are conditioned on very late extinction...
We study branching processes of independently splitting particles in the continuous time setting. If...
It is well known that the behaviour of a branching process is completely described by the generatin...
Abstract. This paper is devoted to studying an extended class of time-continuous branching processes...
The notion of stability can be generalised to point processes by defining the scaling operation in a...
Continuous state branching processes arise as rescaled limits of discrete branching ones. Those proc...
We consider branching processes consisting of particles (individuals) of two types (type and type )...
We consider a particle system in continuous time, a discrete population, with spatial motion, and no...
International audienceWe are interested in the dynamic of a structured branching population where th...
We study analytically the order and gap statistics of particles at time t for the one dimensional br...
We explore the relationship between branching processes and random sums of indicators. As a tool for...
We consider continuous state branching processes (CSBP) with additional multi-plicative jumps modeli...
We consider a branching stable process with positive jumps, i.e. a continuous-time branching process...
A spatial branching process is considered in which particles have a lifetime law with a tail index s...
each entity is equipped with a finite set of private continuous variables, called clocks. Clocks gro...
Multitype branching processes and Feller diffusion processes are conditioned on very late extinction...