Early results have shown the potential of Deep Learning (DL) to disrupt the fields of optical
inverse-design, particularly, the inverse design of nanostructures. In the last three years, the …

Nanostructures made of dielectric materials with high or moderate refractive indexes can
support strong electric and magnetic resonances in the optical region. They can therefore …

Plasmonic antennas have a profound impact on nanophotonics as they provide efficient
means to manipulate light and enhance light–matter interactions at the nanoscale. However …

Recent trends to employ high-index dielectric particles in nanophotonics are motivated by
their reduced dissipative losses and large resonant enhancement of nonlinear effects at the …

We propose a novel photothermal approach based on resonant dielectric nanoparticles,
which possess imaginary part of permittivity significantly smaller as compared to metal ones …

Unidirectional scattering from circularly polarized dipoles has been demonstrated in near-
field optics, where the quantum spin-Hall effect of light translates into spin-momentum …

The concentration and manipulation of light in the nanoscale range are fundamental to
nanophotonic research. Plasmonic nanoparticles can localize electromagnetic waves within …

The scaling down of meta‐atoms or metamolecules (collectively denoted as metaunits) is a
long‐lasting issue from the time when the concept of metamaterials was first suggested …

Directional near-field coupling can enable many applications, such as directional routing, on-
chip information processing, and chiral quantum optics. This directional near-field coupling …

The concept of high refractive index subwavelength dielectric nanoresonators, supporting
electric and magnetic optical resonance, is a promising platform for waveguiding, sensing …