Ellipses Percolation

Abstract

We define a continuum percolation model that provides a collection of random ellipses on the plane and study the behavior of the covered set and the vacant set, the one obtained by removing all ellipses. Our model generalizes a construction that appears implicitly in the Poisson cylinder model of Tykesson and Windisch. The ellipses model has a parameter α > 0 associated with the tail decay of the major axis distribution; we only consider distributions satisfying [r, ∞) r-α. We prove that this model presents a double phase transition in α. For α ∈ (0,1] the plane is completely covered by the ellipses, almost surely. For α ∈ (1,2) the vacant set is not empty but does not percolate for any positive density of ellipses, while the covered set always percolates. For α ∈ (2, ∞) the vacant set percolates for small densities of ellipses and the covered set percolates for large densities. Moreover, we prove for the critical parameter α = 2 that there is a non-degenerate interval of density for which the probability of crossing boxes of a fixed proportion is bounded away from zero and one, a rather unusual phenomenon. In this interval neither the covered set nor the vacant set percolate, a behavior that is similar to critical independent percolation on Z2.