Luca Lussardi, Mark A. Peletier, Matthias Röger
Published 2014-02-26Version 1
We present an asymptotic analysis of a mesoscale energy for bilayer membranes that has been introduced and analyzed in two space dimensions by the second and third author (Arch. Ration. Mech. Anal. 193, 2009). The energy is both non-local and non-convex. It combines a surface area and a Monge-Kantorovich-distance term, leading to a competition between preferences for maximally concentrated and maximally dispersed configurations. Here we extend key results of our previous analysis to the three dimensional case. First we prove a general lower estimate and formally identify a curvature energy in the zero-thickness limit. Secondly we construct a recovery sequence and prove a matching upper-bound estimate.
Mathematical analysis of a mesoscale model for multiphase membranes
Variational analysis of integral functionals involving nonlocal gradients on bounded domains
Variational analysis of a two-dimensional frustrated spin system: emergence and rigidity of chirality transitions
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