[HTML][HTML] Collective lattice resonances: Plasmonics and beyond
Engineering nanostructures with exceptionally high-Q resonances mediated by the Fano-
type hybridization between discrete states associated with the periodicity of the structure and …
type hybridization between discrete states associated with the periodicity of the structure and …
All-dielectric thermonanophotonics
Nanophotonics is an important branch of modern optics dealing with light–matter interaction
at the nanoscale. Nanoparticles can exhibit enhanced light absorption under illumination by …
at the nanoscale. Nanoparticles can exhibit enhanced light absorption under illumination by …
Mie scattering for photonic devices
Mie scattering is increasingly exploited to manipulate electromagnetic fields to achieve
strong resonant enhancement, to obtain perfect absorption of radiation, and to generate …
strong resonant enhancement, to obtain perfect absorption of radiation, and to generate …
All‐Dielectric Huygens' Meta‐Waveguides for Resonant Integrated Photonics
The growing maturity of nanofabrication technology has recently enabled the deployment of
high‐quality subwavelength nanostructures on photonic chips. Combining existing photonic …
high‐quality subwavelength nanostructures on photonic chips. Combining existing photonic …
Highly efficient nonlinear optical emission from a subwavelength crystalline silicon cuboid mediated by supercavity mode
The low quantum efficiency of silicon (Si) has been a long-standing challenge for scientists.
Although improvement of quantum efficiency has been achieved in porous Si or Si quantum …
Although improvement of quantum efficiency has been achieved in porous Si or Si quantum …
Engineering of High-Q States via Collective Mode Coupling in Chains of Mie Resonators
Efficient trapping of light in nanostructures is essential for the development of optical devices
based on the interaction between light and matter. In this work, we show theoretically and …
based on the interaction between light and matter. In this work, we show theoretically and …
Fast simulation of light scattering and harmonic generation in axially symmetric structures in COMSOL
The study of electromagnetic scattering in optics and nanophotonics is crucial for
understanding complex nanostructures and optical devices. However, numerical analysis of …
understanding complex nanostructures and optical devices. However, numerical analysis of …
Switchable dual-mode nanolaser: mastering emission and invisibility through phase transition materials
The principle of detailed balance states that objects efficiently emitting radiation at a specific
wavelength also efficiently absorb radiation at the same wavelength. This principle presents …
wavelength also efficiently absorb radiation at the same wavelength. This principle presents …
Strategical deep learning for photonic bound states in the continuum
Resonance is instrumental in modern optics and photonics. While one can use numerical
simulations to sweep geometric and material parameters of optical structures, these …
simulations to sweep geometric and material parameters of optical structures, these …
Tunable and low-threshold random lasing emission in waveguide aided Rhodamine-6G dye incorporated silica embedded thin films
A simple and low-cost approach for producing tunable and low threshold RL emission in the
visible region is reported by using a fluorescent laser dye as gain medium and light …
visible region is reported by using a fluorescent laser dye as gain medium and light …