Subwavelength confinement of light with plasmonics is promising for nanophotonics and
optoelectronics. However, it is nontrivial to obtain narrow plasmonic resonances due to the …

This is a review on theoretical and experimental studies on dielectric microcavities, which
play a significant role in fundamental and applied research. The basic concepts and theories …

Quantum plasmonics is a rapidly growing field of research that involves the study of the
quantum properties of light and its interaction with matter at the nanoscale. Here, surface …

This book is meant as an introduction to graphene plasmonics and aims at the advanced
undergraduate and graduate students entering the field of plasmonics in graphene. In it …

Small lasers have dimensions or modes sizes close to or smaller than the wavelength of
emitted light. In recent years there has been significant progress towards reducing the size …

Periodic dielectric structures are typically integrated with a planar waveguide to create
photonic band-edge modes for feedback in one-dimensional distributed feedback lasers …

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 …

Optical metamaterials and nanoplasmonics bridge the gap between conventional optics and
the nanoworld. Exciting and technologically important capabilities range from …

Constrained by large ohmic and radiation losses, plasmonic nanolasers operated at visible
regime are usually achieved either with a high threshold (102–104 MW cm− 2) or at …

Light–matter interactions are inherently slow as the wavelengths of optical and electronic
states differ greatly. Surface plasmon polaritons—electromagnetic excitations at metal …