Scaling limit of first passage percolation geodesics on planar maps
Résumé
We establish the scaling limit of the geodesics to the root for the first passage percolation distance on random planar maps. We first describe the scaling limit of the number of faces along the geodesics. This result enables to compare the metric balls for the first passage percolation and the dual graph distance. It also enables to upperbound the diameter of large random maps. Then, we describe the scaling limit of the tree of first passage percolation geodesics to the root via a stochastic coalescing flow of pure jump diffusions. This stochastic flow also enables us to construct some random metric spaces which we conjecture to be the scaling limit of random planar maps with high degrees. The main tool in this work is a time-reversal of the uniform peeling exploration.