Elongated Poisson-Voronoi cells in an empty half-plane
Résumé
The Voronoi tessellation of a homogeneous Poisson point process in the lower half-plane gives rise to a family of vertical elongated cells in the upper half-plane. The set of edges of these cells is ruled by a Markovian branching mechanism which is asymptotically described by two sequences of iid variables which are respectively Beta and exponentially distributed. This leads to a precise description of the scaling limit of a so-called typical cell. The limit object is a random apeirogon that we name menhir in reference to the Gallic huge stones. We also deduce from the aforementioned branching mechanism that the number of vertices of a cell of height $\lambda$ is asymptotically equal to $\frac45\log\lambda$.
Domaines
Probabilités [math.PR]Origine | Fichiers produits par l'(les) auteur(s) |
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