Plasmonic nanomaterials have outstanding optoelectronic properties potentially enabling
the next generation of catalysts, sensors, lasers and photothermal devices. Owing to optical …

Plasmonics is a revolutionary concept in nanophotonics that combines the properties of both
photonics and electronics by confining light energy to a nanometer-scale oscillating field of …

Surface plasmonic sensors have been widely used in biology, chemistry, and environment
monitoring. These sensors exhibit extraordinary sensitivity based on surface plasmon …

The study of spontaneous emission has basic and supporting significance for enhancing the
interaction between light and matter, solid-state lighting and biosensors. Hyperbolic …

Plasmonic phenomena in metals are commonly explored within the framework of classical
electrodynamics and semiclassical models for the interactions of light with free-electron …

Plexcitonic strong coupling between a plasmon–polariton and a quantum emitter empowers
ultrafast quantum manipulations in the nanoscale under ambient conditions. The main body …

Control of optical polarization is central to harnessing the properties of electromagnetic
radiation for many applications, including 3D imaging and quantum computation. However …

Replacing curved and bulky optical elements with thin and lightweight counterparts is a
persistent pursuit of the optical society. Metasurfaces, as two-dimensional artificial …

Achieving strong coupling between emitters and cavity photons holds an important position
in the light–matter interaction due to its applications such as polariton lasing, all-optical …

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