Litcius/Paper detail

Near-zero-index media as electromagnetic ideal fluids

Iñigo Liberal, Michaël Lobet, Yue Li, Nader Engheta

2020Proceedings of the National Academy of Sciences49 citationsDOIOpen Access PDF

Abstract

Near-zero-index (NZI) supercoupling, the transmission of electromagnetic waves inside a waveguide irrespective of its shape, is a counterintuitive wave effect that finds applications in optical interconnects and engineering light-matter interactions. However, there is a limited knowledge on the local properties of the electromagnetic power flow associated with supercoupling phenomena. Here, we theoretically demonstrate that the power flow in two-dimensional (2D) NZI media is fully analogous to that of an ideal fluid. This result opens an interesting connection between NZI electrodynamics and fluid dynamics. This connection is used to explain the robustness of supercoupling against any geometrical deformation, to enable the analysis of the electromagnetic power flow around complex geometries, and to examine the power flow when the medium is doped with dielectric particles. Finally, electromagnetic ideal fluids where the turbulence is intrinsically inhibited might offer interesting technological possibilities, e.g., in the design of optical forces and for optical systems operating under extreme mechanical conditions.

Topics & Concepts

Ideal (ethics)Electromagnetic fieldTurbulenceVortexZero (linguistics)Perfect fluidRefractive indexPhysicsFluid dynamicsFlow (mathematics)Classical mechanicsMechanicsNanophotonicsFluid mechanicsOpticsQuantum mechanicsLinguisticsEpistemologyPhilosophyPlasmonic and Surface Plasmon ResearchOrbital Angular Momentum in OpticsMetamaterials and Metasurfaces Applications