Maximizing expected powers of the angle between pairs of points in projective space

Abstract

Among probability measures on d-dimensional real projective space, one which maximizes the expected angle (x|x|· y|y|) between independently drawn projective points x and y was conjectured to equidistribute its mass over the standard Euclidean basis \e0,e1,…, ed\ by Fejes T\'oth FT59. If true, this conjecture evidently implies the same measure maximizes the expectation of α(x|x|· y|y|) for any exponent α > 1. The kernel α(x|x|· y|y|) represents the objective of an infinite-dimensional quadratic program. We verify discrete and continuous versions of this milder conjecture in a non-empty range α > αd 1, and establish uniqueness of the resulting maximizer μ up to rotation. We show μ no longer maximizes when α<αd. At the endpoint α=αd of this range, we show another maximizer μ must also exist which is not a rotation of μ. For the continuous version of the conjecture, an appendix provided by Bilyk et al in response to an earlier draft of this work combines with the present improvements to yield αd<2. The original conjecture =1 remains open (unless d=1). However, in the maximum possible range α>1, we show μ and its rotations maximize the aforementioned expectation uniquely on a sufficiently small ball in the L∞-Kantorovich-Rubinstein-Wasserstein metric d∞ from optimal transportation; the same is true for any measure μ which is mutually absolutely continuous with respect to μ, but the size of the ball depends on α,d, and \|d μdμ\|∞.