Engineering nanostructures with exceptionally high-Q resonances mediated by the Fano-
type hybridization between discrete states associated with the periodicity of the structure and …

Bound states in the continuum (BICs) are a striking example of how a solution to a simple
problem of quantum mechanics, obtained about a century ago, can serve as an incentive to …

Artificial color pixels based on dielectric Mie resonators are appealing for scientific research
as well as practical design. Vivid colors are imperative for displays and imaging. Dielectric …

In this Perspective, we outline the recent progress, primary achievements, and further
directions in the development of high refractive index nanostructures and metasurfaces. In …

In O-and C-band optical communications, Ge is a promising material for detecting optical
signals that are encoded into electrical signals. Herein, we study 2D periodic Ge …

Lattice resonances, the collective modes supported by periodic arrays of metallic
nanoparticles, give rise to very strong and spectrally narrow optical responses. Thanks to …

With the capabilities to localize light at the subwavelength scale and flexibly control the full
dimensions of electromagnetic fields, planar optical artificial nanostructures have been …

Our research focuses on studying the multipole Mie resonances that are excited within the
antennas of transition-metal carbides and nitrides (MXenes), particularly focusing on Ti3C2T …

Periodic arrays of metallic nanostructures support collective lattice resonances, which give
rise to optical responses that are, at the same time, stronger and more spectrally narrow than …

In this work, a silicon metasurface designed to support electromagnetically induced
transparency (EIT) based on quasi-bound states in the continuum (qBIC) is proposed and …