Minimum Riesz energy problem on the hyperdisk

Abstract

We consider the minimum Riesz s-energy problem on the unit disk D≔{(x1,…,xd)∈Rd:x1=0,x22+x32+⋯+xd2≤1} in the Euclidean space Rd, d ≥ 3, immersed into a smooth rotationally invariant external field Q. The charges are assumed to interact via the Riesz potential 1/rs, with d − 3 < s < d − 1, where r denotes the Euclidean distance. We solve the problem by finding the support of the extremal measure and an explicit expression for its density. We then consider applications to a monomial external field and an external field generated by a positive point charge, located at some distance above the disk on the polar axis. We obtain an equation describing the critical height for the location of the point charge, which guarantees that the support of the extremal measure occupies the whole disk D. We also show that under some mild restrictions on a general external field the support of the extremal measure will have a ring structure. Furthermore, we demonstrate how to reduce the problem of recovery of the extremal measure in this case to a Fredholm integral equation of the second kind.