Approximate cloaking for the full wave equation via change of variables: The Drude-Lorentz model

This paper concerns approximate cloaking by mapping for a full, but scalar wave equation, when one allows for physically relevant frequency dependence of the material properties of the cloak. The paper is a natural continuation of [20], but here we employ the Drude-Lorentz model in the cloaking layer, that is otherwise constructed by an approximate blow up transformation of the type introduced in [10]. The central mathematical problem is to analyze the effect of a small inhomogeneity in the context of this non-local full wave equation. (C) 2016 Elsevier Masson SAS. All rights reserved.

Approximate cloaking for the full wave equation via change of variables: The Drude-Lorentz model

Computational Design of Flexible Planar Microstructures

Oligomodal metamaterials with multifunctional mechanics

Symplectic dynamical low rank approximation of wave equations with random parameters

Oligomodal metamaterials with multifunctional mechanics

Symplectic dynamical low rank approximation of wave equations with random parameters

Computational Design of Flexible Planar Microstructures