From optimal transportation to optimal teleportation

Abstract

The object of this paper is to study estimates of ε-qWp(μ+ε, μ) for small ε>0. Here Wp is the Wasserstein metric on positive measures, p>1, μ is a probability measure and a signed, neutral measure (∫ d=0). In [W1] we proved uniform (in ε) estimates for q=1 provided ∫ φ d can be controlled in terms of the ∫|∇φ|p/(p-1)dμ, for any smooth function φ. In this paper we extend the results to the case where such a control fails. This is the case where if, e.g. μ has a disconnected support, or if the dimension of μ , d (to be defined) is larger or equal p/(p-1). In the later case we get such an estimate provided 1/p+1/d=1 for q=(1, 1/p+1/d). If 1/p+1/d=1 we get a log-Lipschitz estimate. As an application we obtain H\"older estimates in Wp for curves of probability measures which are absolutely continuous in the total variation norm . In case the support of μ is disconnected (corresponding to d=∞) we obtain sharp estimates for q=1/p ("optimal teleportation"): ε→ 0ε-1/pWp(μ, μ+ε) = \|\|μ where \|\|μ is expressed in terms of optimal transport on a metric graph, determined only by the relative distances between the connected components of the support of μ, and the weights of the measure in each connected component of this support.