Add to ORKGWe present a structure combing a photonic crystal cavity with a plasmonic bowtie nanoantenna producing spectral confinement and field enhancement for optical trapping. We will discuss coupling mechanisms and field enhancements in relation to spectral detuning, cavity design, structure geometry and excitation field
The optomechanical coupling between a resonant optical field and a nanoparticle through trapping for...
Hybrid photonic-plasmonic cavities have emerged as a new platform to increase light-matter interacti...
The interaction between light and matter (an atom or a molecule) is generally weak, while the abilit...
We investigate the use of a hybrid nanoresonator comprising a photonic crystal (PhC) cavity coupled ...
International audienceWe numerically demonstrate a drastic enhancement of the light intensity in the...
International audienceOver the last few years, optical nanoantennas are continuously attracting inte...
We investigate the use of a hybrid photonic-plasmonic nanoresonator for optical trapping of nanopart...
We present the design and numerical characterization of a hybrid photonicplasmonic nanoresonator com...
We show that the photonic confinement induced by a photonic crystal can be exploited to trap nanopar...
Integrated optical nanotweezers offer a novel paradigm for optical trapping, as their ability to con...
We investigate the use of a hybrid nanoresonator comprising a photonic crystal (PhC) cavity coupled ...
We propose a hybrid optical nanocavity consisting of photonic crystals coupled to a metal surface wi...
In this paper, a hybrid photonic-plasmonic resonator is proposed. The device consists of a partially...
We investigate the use of a hybrid nanoresonator comprising a photonic crystal (PhC) cavity coupled ...
The focus of this thesis is to understand the highly cooperative hybridization between plasmonic and...
The optomechanical coupling between a resonant optical field and a nanoparticle through trapping for...
Hybrid photonic-plasmonic cavities have emerged as a new platform to increase light-matter interacti...
The interaction between light and matter (an atom or a molecule) is generally weak, while the abilit...
We investigate the use of a hybrid nanoresonator comprising a photonic crystal (PhC) cavity coupled ...
International audienceWe numerically demonstrate a drastic enhancement of the light intensity in the...
International audienceOver the last few years, optical nanoantennas are continuously attracting inte...
We investigate the use of a hybrid photonic-plasmonic nanoresonator for optical trapping of nanopart...
We present the design and numerical characterization of a hybrid photonicplasmonic nanoresonator com...
We show that the photonic confinement induced by a photonic crystal can be exploited to trap nanopar...
Integrated optical nanotweezers offer a novel paradigm for optical trapping, as their ability to con...
We investigate the use of a hybrid nanoresonator comprising a photonic crystal (PhC) cavity coupled ...
We propose a hybrid optical nanocavity consisting of photonic crystals coupled to a metal surface wi...
In this paper, a hybrid photonic-plasmonic resonator is proposed. The device consists of a partially...
We investigate the use of a hybrid nanoresonator comprising a photonic crystal (PhC) cavity coupled ...
The focus of this thesis is to understand the highly cooperative hybridization between plasmonic and...
The optomechanical coupling between a resonant optical field and a nanoparticle through trapping for...
Hybrid photonic-plasmonic cavities have emerged as a new platform to increase light-matter interacti...
The interaction between light and matter (an atom or a molecule) is generally weak, while the abilit...