arXiv:1107.2543 Abstract | arXiv Analytics

arXiv:1107.2543 [math.PR]Abstract References Reviews Resources

Convergence in law for the branching random walk seen from its tip

Published 2011-07-13, updated 2015-08-31Version 5

Considering a critical branching random walk on the real line. In a recent paper, Aidekon [3] developed a powerful method to obtain the convergence in law of its minimum after a log-factor normalization. By an adaptation of this method, we show that the point process formed by the branching random walk and its minimum converge in law to a Poisson point process colored by a certain point process. This result, confirming a conjecture of Brunet and Derrida [10], can be viewed as a discrete analog of the corresponding results for the branching brownian motion, previously established by Arguin et al. [5] [6] and Aidekon et al. [2].

Categories: math.PR

Keywords: convergence, minimum converge, log-factor normalization, brownian motion, real line

Related articles: Most relevant | Search more

arXiv:math/0409155 [math.PR] (Published 2004-09-09, updated 2005-09-15)

Chernoff's Theorem and Discrete Time Approximations of Brownian Motion on Manifolds

O. G. Smolyanov, H. v. Weizsaecker, O. Wittich

arXiv:1208.6399 [math.PR] (Published 2012-08-31, updated 2013-02-13)

Brownian motion in the quadrant with oblique repulsion from the sides

Dominique Lépingle

arXiv:0805.4618 [math.PR] (Published 2008-05-29)

On the first passage time for Brownian motion subordinated by a Levy process

T. R. Hurd, A. Kuznetsov