Ergodic theory on Galton—Watson trees: speed of random walk and dimension of harmonic measure
- 1 April 1995
- journal article
- research article
- Published by Cambridge University Press (CUP) in Ergodic Theory and Dynamical Systems
- Vol. 15 (3) , 593-619
- https://doi.org/10.1017/s0143385700008543
Abstract
We consider simple random walk on the family tree T of a nondegenerate supercritical Galton—Watson branching process and show that the resulting harmonic measure has a.s. strictly smaller Hausdorff dimension than that of the whole boundary of T. Concretely, this implies that an exponentially small fraction of the nth level of T carries most of the harmonic measure. First-order asymptotics for the rate of escape, Green function and the Avez entropy of the random walk are also determined. Ergodic theory of the shift on the space of random walk paths on trees is the main tool; the key observation is that iterating the transformation induced from this shift to the subset of ‘exit points’ yields a nonintersecting path sampled from harmonic measure.Keywords
This publication has 14 references indexed in Scilit:
- Hausdorff dimension of harmonic measures on negatively curved manifoldsTransactions of the American Mathematical Society, 1990
- Random Walks and Electric NetworksPublished by American Mathematical Society (AMS) ,1984
- Ergodic TheoryPublished by Cambridge University Press (CUP) ,1983
- Branching ProcessesPublished by Springer Nature ,1983
- Exact distributions of kin numbers in a Galton-Watson processJournal of Applied Probability, 1982
- Dimension, entropy and Lyapunov exponentsErgodic Theory and Dynamical Systems, 1982
- Trees Generated by a Simple Branching ProcessJournal of the London Mathematical Society, 1981
- Branching ProcessesPublished by Springer Nature ,1972
- A note on a functional equation arising in Galton-Watson branching processesJournal of Applied Probability, 1971
- Markov Processes. Structure and Asymptotic BehaviorPublished by Springer Nature ,1971