Le LUNDI 13 mars 2023 de 11h00 à 12h00 / Amphithéâtre François Canac, LMA
Abstract : By developing and applying a homogenization scheme for elastodynamics, Willis discovered that the momentum of composite materials is macroscopically coupled with their strain. This coupling is captured by the now-termed Willis tensor, which not only enlarges the design space of metamaterials, but is also necessary for obtaining a meaningful effective description that respects basic physical laws. In this talk, I will show how additional tensors of Willis type emerge by generalizing the homogenization theory of Willis to thermoelastic-, piezomagnetic- or piezoelectric media. As a result, the obtained effective constitutive equations have a tri-anisotropic form. I will provide continuum and discrete models for piezoelectric media that exhibit an effective electromomentum coupling. I will show that this coupling is necessary for describing the effective properties of piezoelectric media using a homogenized description that respects reciprocity and energy conservation. Finally, I will demonstrate how this coupling can be used to realize a device that actively control the phase of elastic waves.
This work was carried out in collaboration with R. Pernas-Salomon, A. Muhafra, K. Muhafra, M. Kosta, D. Torrent, M. R. Haberman, A. N. Norris.