Resonant states and their role in nanophotonics
Resonant phenomena have been extensively used in micro-and nanophotonics.
Mathematically, these phenomena originate in a discrete set of basis functions known as …
Mathematically, these phenomena originate in a discrete set of basis functions known as …
Cascades of Fano resonances in light scattering by dielectric particles
N Solodovchenko, M Sidorenko, T Seidov, I Popov… - Materials Today, 2022 - Elsevier
Fano lineshapes are fundamental spectroscopic signatures that quantitatively characterize
the structural and dynamic properties of physical objects, from nuclei to three-dimensional …
the structural and dynamic properties of physical objects, from nuclei to three-dimensional …
Hybrid photonic-plasmonic cavities based on the nanoparticle-on-a-mirror configuration
AI Barreda, M Zapata-Herrera, IM Palstra… - Photonics …, 2021 - opg.optica.org
Hybrid photonic-plasmonic cavities have emerged as a new platform to increase light–
matter interaction capable to enhance the Purcell factor in a singular way not attainable with …
matter interaction capable to enhance the Purcell factor in a singular way not attainable with …
Cooperative interactions between nano-antennas in a high-Q cavity for unidirectional light sources
KG Cognée, HM Doeleman, P Lalanne… - Light: Science & …, 2019 - nature.com
We analyse the resonant mode structure and local density of states in high-Q hybrid
plasmonic-photonic resonators composed of dielectric microdisks hybridized with pairs of …
plasmonic-photonic resonators composed of dielectric microdisks hybridized with pairs of …
[HTML][HTML] Room-temperature plexcitonic strong coupling: Ultrafast dynamics for quantum applications
Strong light–matter interaction is at the heart of modern quantum technological applications
and is the basis for a wide range of rich optical phenomena. Coupling a single quantum …
and is the basis for a wide range of rich optical phenomena. Coupling a single quantum …
Few-mode field quantization for multiple emitters
M Sánchez-Barquilla, FJ García-Vidal… - …, 2022 - degruyter.com
The control of the interaction between quantum emitters using nanophotonic structures
holds great promise for quantum technology applications, while its theoretical description for …
holds great promise for quantum technology applications, while its theoretical description for …
Plexcitonic quantum light emission from nanoparticle-on-mirror cavities
We investigate the quantum-optical properties of the light emitted by a nanoparticle-on-
mirror cavity filled with a single quantum emitter. Inspired by recent experiments, we model a …
mirror cavity filled with a single quantum emitter. Inspired by recent experiments, we model a …
Polaritonic linewidth asymmetry in the strong and ultrastrong coupling regime
The intriguing properties of polaritons resulting from strong and ultrastrong light–matter
coupling have been extensively investigated. However, most research has focused on …
coupling have been extensively investigated. However, most research has focused on …
Modal analysis of electromagnetic resonators: user guide for the man program
All electromagnetic systems, in particular resonators or antennas, have resonances with
finite lifetimes. The associated eigenstates, also called quasinormal modes, are essentially …
finite lifetimes. The associated eigenstates, also called quasinormal modes, are essentially …
Fano combs in the directional Mie scattering of a water droplet
JT Marmolejo, A Canales, D Hanstorp… - Physical Review Letters, 2023 - APS
When light scatters off a sphere, it produces a rich Mie spectrum full of overlapping
resonances. Single resonances can be explained with a quantum analogy and result in …
resonances. Single resonances can be explained with a quantum analogy and result in …