Survival time of random walk in random environment among soft obstacles

Nina Gantert; Serguei Popov; Marina Vachkovskaia

doi:10.1214/EJP.v14-631

Survival time of random walk in random environment among soft obstacles

Nina Gantert, Serguei Popov, Marina Vachkovskaia

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

We consider a RandomWalk in Random Environment (RWRE) moving in an i.i.d. random field of obstacles. When the particle hits an obstacle, it disappears with a positive probability. We obtain quenched and annealed bounds on the tails of the survival time in the general d-dimensional case. We then consider a simplified one-dimensional model (where transition probabilities and obstacles are independent and the RWRE only moves to neighbour sites), and obtain finer results for the tail of the survival time. In addition, we study also the “mixed” probability measures (quenched with respect to the obstacles and annealed with respect to the transition probabilities and vice-versa) and give results for tails of the survival time with respect to these probability measures. Further, we apply the same methods to obtain bounds for the tails of hitting times of Branching Random Walks in Random Environment (BRWRE).

Original language	English
Pages (from-to)	569-593
Number of pages	25
Journal	Electronic Journal of Probability
Volume	14
DOIs	https://doi.org/10.1214/EJP.v14-631
State	Published - 1 Jan 2009
Externally published	Yes

Keywords

Branching random walks in random environment
Confinement of RWRE
Nestling RWRE
Quenched and annealed tails
Survival time

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10.1214/EJP.v14-631

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title = "Survival time of random walk in random environment among soft obstacles",

abstract = "We consider a RandomWalk in Random Environment (RWRE) moving in an i.i.d. random field of obstacles. When the particle hits an obstacle, it disappears with a positive probability. We obtain quenched and annealed bounds on the tails of the survival time in the general d-dimensional case. We then consider a simplified one-dimensional model (where transition probabilities and obstacles are independent and the RWRE only moves to neighbour sites), and obtain finer results for the tail of the survival time. In addition, we study also the “mixed” probability measures (quenched with respect to the obstacles and annealed with respect to the transition probabilities and vice-versa) and give results for tails of the survival time with respect to these probability measures. Further, we apply the same methods to obtain bounds for the tails of hitting times of Branching Random Walks in Random Environment (BRWRE).",

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T1 - Survival time of random walk in random environment among soft obstacles

AU - Gantert, Nina

AU - Popov, Serguei

AU - Vachkovskaia, Marina

PY - 2009/1/1

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N2 - We consider a RandomWalk in Random Environment (RWRE) moving in an i.i.d. random field of obstacles. When the particle hits an obstacle, it disappears with a positive probability. We obtain quenched and annealed bounds on the tails of the survival time in the general d-dimensional case. We then consider a simplified one-dimensional model (where transition probabilities and obstacles are independent and the RWRE only moves to neighbour sites), and obtain finer results for the tail of the survival time. In addition, we study also the “mixed” probability measures (quenched with respect to the obstacles and annealed with respect to the transition probabilities and vice-versa) and give results for tails of the survival time with respect to these probability measures. Further, we apply the same methods to obtain bounds for the tails of hitting times of Branching Random Walks in Random Environment (BRWRE).

AB - We consider a RandomWalk in Random Environment (RWRE) moving in an i.i.d. random field of obstacles. When the particle hits an obstacle, it disappears with a positive probability. We obtain quenched and annealed bounds on the tails of the survival time in the general d-dimensional case. We then consider a simplified one-dimensional model (where transition probabilities and obstacles are independent and the RWRE only moves to neighbour sites), and obtain finer results for the tail of the survival time. In addition, we study also the “mixed” probability measures (quenched with respect to the obstacles and annealed with respect to the transition probabilities and vice-versa) and give results for tails of the survival time with respect to these probability measures. Further, we apply the same methods to obtain bounds for the tails of hitting times of Branching Random Walks in Random Environment (BRWRE).

KW - Branching random walks in random environment

KW - Confinement of RWRE

KW - Nestling RWRE

KW - Quenched and annealed tails

KW - Survival time

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JO - Electronic Journal of Probability

JF - Electronic Journal of Probability

ER -

Survival time of random walk in random environment among soft obstacles

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Keywords

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