Molecular plasmonics, the area which deals with the interactions between surface plasmons
and molecules, has received enormous interest in fundamental research and found …

Requirements of integrated photonics and miniaturisation of optical devices demand
efficient nonlinear components not constrained by conventional macroscopic nonlinear …

Light–matter interactions can be strongly modified by the surrounding environment. Here,
we report on the first experimental observation of molecular spontaneous emission inside a …

Understanding light interaction with metallic structures provides opportunities of
manipulation of light, and is at the core of various research areas including terahertz (THz) …

The radiation dynamics of optical emitters can be manipulated by properly designed
material structures modifying local density of photonic states, a phenomenon often referred …

The ability to control the rate of spontaneous emission via the design of nanostructured
materials with appropriate electromagnetic properties is important in the development of …

Frontier quantum engineering tasks require reliable control over light-matter interaction
dynamics, which could be obtained by introducing electromagnetic structuring. Initiated by …

Hyperbolic plasmonic metamaterials are important for designing sensing, nonlinear, and
emission functionalities, which are, to a large extent, determined by the epsilon-near-zero …

Metallic nanostructures permit controlling various photophysical processes by coupling
photons with plasmonic oscillation of electrons confined in the tailored nanostructures. One …

Nanoscale silver clusters and metal Ag nanoparticles embedded in fluorophosphate glass
were produced by Na/Ag ion exchange and subsequent heat treatment. The studied ion …