Optical metamaterials have presented an innovative method of manipulating light.
Hyperbolic metamaterials have an extremely high anisotropy with a hyperbolic dispersion …

Electromagnetic metamaterials, artificial media created by subwavelength structuring, are
useful for engineering electromagnetic space and controlling light propagation. Such …

Manipulating the properties of the isofrequency contours (IFCs) of materials provides a
powerful means of controlling the interaction between light and matter. Hyperbolic …

This review aims at providing a comprehensive and updated picture of the field of hyperbolic
metamaterials, from the foundations to the most recent progresses and future perspectives …

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 …

The physics and applications of a broad class of artificial electromagnetic materials
composed of lattices of aligned metal rods embedded in a dielectric matrix are reviewed …

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

The response of optical metasurfaces is usually narrowband, and mechanisms to increase
their bandwidth often clash with causality and passivity constraints of materials. Here we are …

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

In this work, we investigate the detailed theory of the supercoupling, anomalous tunneling
effect, and field confinement originally identified by Silveirinha and Engheta [Phys. Rev. Lett …