A nonlocal free boundary problem with Wasserstein distance

Abstract

We study the probability measures ∈ M( R2) minimizing the functional \[ J[]= 1|x-y|d(x)d(y)+d2(, 0), \] where 0 is a given probability measure and d(, 0) is the 2-Wasserstein distance of and 0. % We prove the existence of minimizers and show that the potential U=-|x| solves a degenerate obstacle problem, the obstacle being the transport potential. Every minimizer is absolutely continuous with respect to the Lebesgue measure. The singular set of the free boundary of the obstacle problem is contained in a rectifiable set, and its Hausdorff dimension is < n-1. Moreover, U solves a nonlocal Monge-Amp\'ere equation, which after linearization leads to the equation t=div(∇ U). The methods we develop use Fourier transform techniques. They work equally well in high dimensions n2 for the energy \[ J[]= |x-y|2-nd(x)d(y)+d2(, 0). \]