A relative isoperimetric inequality for certain warped product spaces

Abstract

Given a warped product space R ×f N with logarithmically convex warping function f, we prove a relative isoperimetric inequality for regions bounded between a subset of a vertical fiber and its image under an almost everywhere differentiable mapping in the horizontal direction. In particular, given a k--dimensional region F ⊂ \b\ × N, and the horizontal graph C ⊂ R ×f N of an almost everywhere differentiable map over F, we prove that the k--volume of C is always at least the k--volume of the smooth constant height graph over F that traps the same (1+k)--volume above F as C. We use this to solve a Dido problem for graphs over vertical fibers, and show that, if the warping function is unbounded on the set of horizontal values above a vertical fiber, the volume trapped above that fiber by a graph C is no greater than the k--volume of C times a constant that depends only on the warping function.