Monge-Ampère gravitating fluids. Least action principles and particle systems

Abstract: The Monge-Amp`ere gravitation theory (MAG) was introduced by Brenier to obtain an approximate solution of the early Universe reconstruction problem. It is a modification of Newtonian gravitation which is based on quadratic optimal transport. Later, Brenier, then Ambrosio, Baradat and Brenier discovered a double large deviation principle for Brownian particles whose rate function is precisely MAG's action functional. In the present article, following Brenier we first recap MAG's theory. Then, we slightly extend it from particles to fluid. This allows us to revisit the Ambrosio-Baradat-Brenier particle system and propose another one which is easier to interpret and whose large deviation rate function is MAG's action functional for fluids. This model leads to a Gibbs conditioning principle that is an entropy minimization problem close to the Schr\"odinger problem. While the setting of the Schr\"odinger problem is a system of noninteracting particles, the particle system we work with is subject to some branching mechanism which regulates the thermal fluctuations and some quantum force which balances them.