Add to ORKGWe consider a one-dimensional random walk which is conditioned to stay non-negative and is "weakly pinned" to zero. This model is known to exhibit a phase transition as the strength of the weak pinning varies. We prove path space limit theorems which describe the macroscopic shape of the path for all values of the pinning strength. If the pinning is less than (resp. equal to) the critical strength, then the limit process is the Brownian meander (resp. reflecting Brownian motion). If the pinning strength is supercritical, then the limit process is a positively recurrent Markov chain with a strong mixing property.Random walk Weak pinning Wall condition Entropic repulsion Wetting transition Limit theorems
AbstractWe provide here a constructive definition of the sticky Brownian motion as we show that it i...
Abstract. In this article we continue the study of the quenched distributions of transient, one-dime...
New results concerning the statistics of, in particular, p random walkers on a line whose paths do n...
We consider a simple random walk of length N, denoted by (Si)i¿{1, …, N}, and we define (wi)i=1 a se...
International audienceWe consider a generalization of the classical pinning problem for integer-valu...
The strip wetting model is defined by giving a (continuous space) one dimensional random walk S a re...
Abstract. We consider a generalization of the classical pinning problem for integer-valued random wa...
We consider paths of a one–dimensional simple random walk conditioned to come back to the origin af...
International audienceWe consider the continuous time version of the Random Walk Pinning Model (RWPM...
We investigate random walks on the integer lattice perturbed at the origin which maximize the entrop...
A branching random walk in presence of an absorbing wall moving at a constant velocity v undergoes a...
Abstract. We consider a simple random walk of length N denoted by (Si)i∈{1,...,N}, and we define ind...
The date of receipt and acceptance will be inserted by the editor Abstract: Self-attractive random w...
We explain a unified approach to a study of ballistic phase for a large family of self-interacting r...
This work is made of two main parts: we first illustrate the notion of correlation length for homoge...
AbstractWe provide here a constructive definition of the sticky Brownian motion as we show that it i...
Abstract. In this article we continue the study of the quenched distributions of transient, one-dime...
New results concerning the statistics of, in particular, p random walkers on a line whose paths do n...
We consider a simple random walk of length N, denoted by (Si)i¿{1, …, N}, and we define (wi)i=1 a se...
International audienceWe consider a generalization of the classical pinning problem for integer-valu...
The strip wetting model is defined by giving a (continuous space) one dimensional random walk S a re...
Abstract. We consider a generalization of the classical pinning problem for integer-valued random wa...
We consider paths of a one–dimensional simple random walk conditioned to come back to the origin af...
International audienceWe consider the continuous time version of the Random Walk Pinning Model (RWPM...
We investigate random walks on the integer lattice perturbed at the origin which maximize the entrop...
A branching random walk in presence of an absorbing wall moving at a constant velocity v undergoes a...
Abstract. We consider a simple random walk of length N denoted by (Si)i∈{1,...,N}, and we define ind...
The date of receipt and acceptance will be inserted by the editor Abstract: Self-attractive random w...
We explain a unified approach to a study of ballistic phase for a large family of self-interacting r...
This work is made of two main parts: we first illustrate the notion of correlation length for homoge...
AbstractWe provide here a constructive definition of the sticky Brownian motion as we show that it i...
Abstract. In this article we continue the study of the quenched distributions of transient, one-dime...
New results concerning the statistics of, in particular, p random walkers on a line whose paths do n...