An Affine Invariant Minkowski Problem

Abstract

In Euclidean space, the generalised Minkowski problem asks, for a given finite Radon measure μ on the unit sphere Sd, to find a compact convex set K with area measure μ. For convex sets in the Minkowski space invariant under an affine deformation of a uniform lattice of SO0(d,1), the analogous Minkowski problem was considered and solved by Barbot--B\'eguin--Zeghib (partially) and Bonsante--Fillastre. By a theorem of Mess--Barbot--Bonsante, that also solves the Minkowski problem in flat Lorentzian spacetimes with compact hyperbolic Cauchy surface. We consider convex domains of the oriented real affine space Rd+1 which are invariant under a subgroup of affine transformations obtained by adding translation parts to a discrete subgroup of SL (Rd+1) dividing a convex cone. We prove that those convex domains satisfy a local Steiner Formula, allowing to introduce natural area measures and define an affine invariant Minkowski problem. We then solve that Minkowski problem through a variational method using the convexity of a covolume functional. We also give an interpretation of those results in some "affine spacetimes", which were introduced by the author in a preceding work.