Polynomial Bounds in Koldobsky's Discrete Slicing Problem

Abstract

In 2013, Koldobsky posed the problem to find a constant dn, depending only on the dimension n, such that for any origin-symmetric convex body K⊂Rn there exists an (n-1)-dimensional linear subspace H⊂Rn with \[ |K Zn| ≤ dn\,|K H Zn|\,vol(K) 1n. \] In this article we show that dn is bounded from above by c\,n2\,ω(n)/(n), where c is an absolute constant and ω(n) is the flatness constant. Due to the recent best known upper bound on ω(n) we get a c\,n3(n)2 bound on dn. This improves on former bounds which were exponential in the dimension.