Anisotropic weighted isoperimetric inequalities for star-shaped and F-mean convex hypersurface

Abstract

We prove two anisotropic type weighted geometric inequalities that hold for star-shaped and F-mean convex hypersurfaces in Rn+1. These inequalities involve the anisotropic p-momentum, the anisotropic perimeter and the volume of the region enclosed by the hypersurface. We show that the Wulff shape of F is the unique minimizer of the corresponding functionals among all star-shaped and F-mean convex sets. We also consider their quantitative versions characterized by the Hausdorff distance between the hypersurface and a rescaled Wulff shape. As a corollary, we obtain the stability of the Weinstock inequality for star-shaped and strictly mean convex domains, which requires weaker convexity compared to Gavitone.