On the mean-width of isotropic convex bodies and their associated Lp-centroid bodies

Abstract

For any origin-symmetric convex body K in Rn in isotropic position, we obtain the bound: \[ M*(K) ≤ C n (n)2 LK ~, \] where M*(K) denotes (half) the mean-width of K, LK is the isotropic constant of K, and C>0 is a universal constant. This improves the previous best-known estimate M*(K) ≤ C n3/4 LK. Up to the power of the (n) term and the LK one, the improved bound is best possible, and implies that the isotropic position is (up to the LK term) an almost 2-regular M-position. The bound extends to any arbitrary position, depending on a certain weighted average of the eigenvalues of the covariance matrix. Furthermore, the bound applies to the mean-width of Lp-centroid bodies, extending a sharp upper bound of Paouris for 1 ≤ p ≤ n to an almost-sharp bound for an arbitrary p ≥ n. The question of whether it is possible to remove the LK term from the new bound is essentially equivalent to the Slicing Problem, to within logarithmic factors in n.