Asymptotics for the Number of Random Walks in the Euclidean Lattice

Dorin Dumitraşcu, Liviu Suciu

Published 2022-12-03Version 1

We give precise asymptotics to the number of random walks in the standard orthogonal lattice in $\mathbb{R}^d$ that return to the starting point at step $2n$, both for all such walks and for the ones that return for the first time. The first set of asymptotics is obtained in an elementary way, by using a combinatorial and geometric multiplication principle together with the classical theory of Legendre polynomials. As an easy consequence we obtain a unified proof of P\'{o}lya's theorem. By showing that the relevant generating functions are $\Delta$-analytic, we use the deeper Tauberian theory of singularity analysis to obtain the asymptotics for the first return paths.