Strong Coupling, Hyperbolic Metamaterials and Optical Tamm States in Layered Dielectric-Plasmonic Media

Abstract: Thin films of noble metals with thickness smaller than the wavelength of light constitute one of the most investigated structures in plasmonics. The fact that surface plasmon modes can be excited in these films by different ways and the simplicity of fabrication offer ideal conditions for applications in nanophotonics. The generation of optical modes in coupled Fabry-Pérot planar cavities and their migration to hyperbolic metamaterials is investigated. Coupled Fabry-Pérot cavities behave as simple coupled reso… Show more

“…Hyperbolic metamaterials [59][60][61][62][63], metasurfaces [64] and epsilon-near-zero elements [65][66][67][68][69][70] can enhance spontaneous emission of quantum emitters and even realize strong coupling between quantum emitters and light field. In particular, the metasurface in the microwave domain [71] and the epsilon-near-zero waveguide [72] can enhance the FRET.…”

Strong radiative coupling between two quantum emitters with arbitrary mutual orientation via a silver nano-arc

“…Hyperbolic metamaterials [59][60][61][62][63], metasurfaces [64] and epsilon-near-zero elements [65][66][67][68][69][70] can enhance spontaneous emission of quantum emitters and even realize strong coupling between quantum emitters and light field. In particular, the metasurface in the microwave domain [71] and the epsilon-near-zero waveguide [72] can enhance the FRET.…”

Strong radiative coupling between two quantum emitters with arbitrary mutual orientation via a silver nano-arc