Quantitative isoperimetric inequalities for classical capillarity problems

Abstract

We consider capillarity functionals which measure the perimeter of sets contained in a Euclidean half-space assigning a constant weight λ ∈ (-1,1) to the portion of the boundary that touches the boundary of the half-space. Depending on λ, sets that minimize this capillarity perimeter among those with fixed volume are known to be suitable truncated balls lying on the boundary of the half-space. We first give a new proof based on an ABP-type technique of the sharp isoperimetric inequality for this class of capillarity problems. Next we prove two quantitative versions of the inequality: a first sharp inequality estimates the Fraenkel asymmetry of a competitor with respect to the optimal bubbles in terms of the energy deficit; a second inequality estimates a notion of asymmetry for the part of the boundary of a competitor that touches the boundary of the half-space in terms of the energy deficit. After a symmetrization procedure, the quantitative inequalities follow from a novel combination of a quantitative ABP method with a selection-type argument.