https://hal-universite-paris-saclay.archives-ouvertes.fr/hal-03287441Contat, AliceAliceContatUniversité Paris-SaclayCurien, NicolasNicolasCurienUniversité Paris-SaclayParking on Cayley trees & Frozen Erd\"os-R\'enyiHAL CCSD2021[MATH] Mathematics [math][MATH.MATH-PR] Mathematics [math]/Probability [math.PR]CURIEN, Nicolas2021-07-15 16:02:522021-12-13 09:16:412021-07-15 16:02:52enPreprints, Working Papers, ...1Consider a uniform rooted Cayley tree $T_{n}$ with $n$ vertices and let $m$ cars arrive sequentially, independently, and uniformly on its vertices. Each car tries to park on its arrival node, and if the spot is already occupied, it drives towards the root of the tree and parks as soon as possible. Lackner & Panholzer (arXiv:1504.04972) established a phase transition for this process when $ m \approx \frac{n}{2}$. In this work, we couple this model with a variant of the classical Erd\"os-R\'enyi random graph process. This enables us to describe the phase transition for the size of the components of parked cars using a modification of the multiplicative coalescent which we name the frozen multiplicative coalescent. The geometry of critical parked clusters is also studied. Those trees are very different from Bienaym\'e-Galton-Watson trees and should converge towards the growth-fragmentation trees canonically associated to the $3/2$-stable process that already appeared in the study of random planar maps.