Transformation Optics for the Modelling of Waves in a Universe with Nontrivial Topology

Abstract

We consider how transformation optics and invisibility cloaking can be used to construct models in subsets R3 with a varying metric, where the time-harmonic waves for a given angular wavenumber k, are equivalent to the waves in some closed orientable manifold. The obtained models could in principle be physically implemented using a device built from metamaterials. In particular the measurements in the metamaterial device given by the Helmholtz source-to-solution operator are equivalent to Helmholtz source-to-solution measurements in a universe given by (R+× M, -dt2 +g), where (M,g) is a closed, orientable, C∞-smooth, 3-dimensional Riemannian manifold. Thus the obtained construction could be used to simulate cosmological models using metamaterial devices.