NM09.03.01 : Multiphysics Simulation of Reconfigurable Phase-Change Material Based Meta-Surfaces

10:30 AM–11:00 AM Apr 3, 2018 (America - Denver)

PCC North, 200 Level, Room 231 BC

Dmitry Chigrin1 2

1, DWI Leibniz Institute for Interactive Materials, Aachen, , Germany
2, RWTH Aachen University, Aachen, , Germany

Today it is possible to engineer the building blocks of artificial materials (meta-materials) with feature sizes smaller than the wavelength of light. The ability to design meta-atoms in a largely arbitrary fashion adds a new degree of freedom in material engineering, allowing to create artificial materials with unusual electromagnetic properties rare or absent in nature. Achieving tunable, switchable and non-linear functionalities of meta-materials at individual meta-atom level could potentially lead to additional flexibility in designing active photonic devices. These include among others, meta-materials based on phase-change materials, whose properties could be altered by thermal or photo-thermal means. In this presentation, our recent results on developing appropriate numerical methods to study hybrid meta-material structures containing phase-change materials will be discussed. Meta-atoms based on plasmon polaritonic or phonon polaritonic materials are considered depending on the application spectral range. We develop appropriate phenomenological models of phase transition and self-consistently couple them with the full wave electromagnetic and heat transfer solvers. Developed methods are used to design meta-surface based tunable components.