Mechanical metamaterials and phononic crystals enable localizing, focusing, and guiding of
elastic or acoustic waves in various ways. Here, we describe the physical mechanisms …

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

This review provides a broad overview of the studies and effects of nonlocal response in
metallic nanostructures. In particular, we thoroughly present the nonlocal hydrodynamic …

Diffractive nonlocal metasurfaces have recently opened a broad range of exciting
developments in nanophotonics research and applications, leveraging spatially extended …

Nonlinear optical materials comprise the foundation of modern photonics, offering
functionalities ranging from ultrafast lasers to optical switching, harmonic and soliton …

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

Hyperbolic metamaterials comprised of an array of plasmonic nanorods provide a unique
platform for designing optical sensors and integrating nonlinear and active nanophotonic …

Metamaterials with hyperbolic dispersion based on metallic nanorod arrays provide a
flexible platform for the design of bio-and chemical sensors and nonlinear devices, allowing …

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 …

Optical activity is a fundamental phenomenon originating from the chiral nature of crystals
and molecules. While intrinsic chiroptical responses of ordinary chiral materials to circularly …