Temporal boundaries in electromagnetic materials
Jonathan Gratus, Rebecca Seviour, Paul Kinsler, Dino A Jaroszynski
Abstract
Abstract Temporally modulated optical media are important in both abstract and applied situations, such as spacetime transformation optics, relativistic laser–plasma interactions, and dynamic metamaterials. Here we investigate the behaviour of temporal boundaries, and show that traditional approaches that assume constant dielectric properties, with loss incorporated as an imaginary part, necessarily lead to unphysical solutions. Furthermore, although physically reasonable predictions can be recovered with a narrowband approximation, we show that appropriate models should use materials with a temporal response and dispersive behaviour.
Topics & Concepts
PhysicsNarrowbandSpacetimeDielectricComputational physicsClassical mechanicsConstant (computer programming)Transformation (genetics)Theoretical physicsStatistical physicsQuantum electrodynamicsElectromagnetic radiationOpticsElectromagnetic fieldMaxwell's equationsWave propagationPermittivitySpace (punctuation)Transient (computer programming)Electromagnetic spectrumTransformation opticsWork (physics)ThermalMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon ResearchQuantum optics and atomic interactions