The interaction between molecular electronic transitions and electromagnetic fields can be
enlarged to the point where distinct hybrid light–matter states, polaritons, emerge. The …

Engineering nanostructures with exceptionally high-Q resonances mediated by the Fano-
type hybridization between discrete states associated with the periodicity of the structure and …

Anisotropy has been a key property employed in the design of optical components for
hundreds of years. However, in recent years there has been growing interest in polaritons …

Strong coupling between light and matter can produce hybrid eigenstates known as exciton–
polaritons. Although polariton dynamics are important photophysical properties, the …

There have recently been remarkable achievements in turning light–matter interaction into
strong-coupling quantum regime. In particular, room-temperature plexcitonic strong coupling …

An enhanced emission of high quantum yield molecules coupled to dielectric metasurfaces
formed by periodic arrays of polycrystalline silicon nanoparticles is demonstrated. Radiative …

Exciton–polaritons are hybrids of light and matter formed at the strong coupling regime that
exhibit interesting phenomena such as enhanced transport, long-range energy transfer, and …

Arrays of subwavelength plasmonic nanoparticles exhibiting narrowband lattice resonances
are referred to as open cavities because of their ability to strongly couple with electronic …

Abstract Light-Emitting Diodes (LEDs) exhibit a typical Lambertian emission, raising the
need for secondary optics to tailor their emission depending on specific applications. Here …

We discuss the possibility of self-hybridisation in high-index dielectric nanoparticles, where
Mie modes of electric or magnetic type can couple to the interband transitions of the …