The H-1-norm of tubular neighbourhoods of curves

Abstract

We study the H-1-norm of the function 1 on tubular neighbourhoods of curves in R2. We take the limit of small thickness epsilon, and we prove two different asymptotic results. The first is an asymptotic development for a fixed curve in the limit epsilon to 0, containing contributions from the length of the curve (at order epsilon3), the ends (epsilon4), and the curvature (epsilon5). The second result is a Gamma-convergence result, in which the central curve may vary along the sequence epsilon to 0. We prove that a rescaled version of the H-1-norm, which focuses on the epsilon5 curvature term, Gamma-converges to the L2-norm of curvature. In addition, sequences along which the rescaled norm is bounded are compact in the W1,2 -topology. Our main tools are the maximum principle for elliptic equations and the use of appropriate trial functions in the variational characterisation of the H-1-norm. For the Gamma-convergence result we use the theory of systems of curves without transverse crossings to handle potential intersections in the limit.