The golf model on Z/nZ and on Z

Abstract

We introduce a particle model, that we call the golf model. Initially, on a graph G, balls and holes are placed at random on some distinct vertices. The balls then move one by one, doing a random walk on G, starting from their initial vertex and stopping at the first empty hole they encounter, which they fill. On finite graphs, under reasonable assumptions (if there are more holes than balls, and if the Markov chain characterizing the random walks is irreducible) a final configuration is reached almost surely. In the paper, we are mainly interested in H1, the set of remaining holes. We give the distribution of H1 on Z/nZ, and describe a phase transition for the largest distance between two consecutive holes when the number of remaining holes is of order n. We show that the model on Z is well-defined if every vertex contains either a ball with probability d b, a hole with probability d h, or nothing, independently from the other vertices, as long as d b ≤ d h, and we describe the law of H1 in this case.