Add to ORKGWe demonstrate guiding of a strong infrared beam by a weak visible beam due to plasmonic-resonant soliton formation. Master/slave-type coupling is also observed by tuning the relative strength of two opposite polarizabilities in core-shell nanosuspensions
We investigate the interaction of focused Gaussian and radially-polarized beams with a silver nanosp...
Strong light-matter interaction leads to the appearance of new states, i.e. exciton-polaritons, with...
International audienceMerging the fields of plasmonics and nonlinear optics authorizes a variety of ...
We demonstrate two different types of coupled beam propagation dynamics in colloidal gold nanosuspen...
Robust propagation of self-trapped light over distances exceeding 25 diffraction lengths has been de...
National audienceWhile plasmonics has seen numerous striking experimental results during the last de...
One promising way to manipulate light on the nanoscale is to exploit the properties of light when it...
We investigate the nonlinear propagation of light beams with complex phase and intensity structures,...
International audienceWe report the experimental observation of plasmon-soliton coupling. The demons...
Plasmon–exciton polaritons arise from the coherent coupling of the localized plasmon of metal nanopa...
We investigate a periodic array of aluminum nanoantennas embedded in a light-emitting slab waveguide...
A major aim in experimental nano- and quantum optics is observing and controlling the interaction be...
International audienceMerging the fields of plasmonics and nonlinear optics authorizes a variety of ...
We study nonlinear propagation of light in colloidal suspension of metallic nanoparticles, in the re...
The study of metal nanoparticles plays a central role in the emerging novel technologies employing o...
We investigate the interaction of focused Gaussian and radially-polarized beams with a silver nanosp...
Strong light-matter interaction leads to the appearance of new states, i.e. exciton-polaritons, with...
International audienceMerging the fields of plasmonics and nonlinear optics authorizes a variety of ...
We demonstrate two different types of coupled beam propagation dynamics in colloidal gold nanosuspen...
Robust propagation of self-trapped light over distances exceeding 25 diffraction lengths has been de...
National audienceWhile plasmonics has seen numerous striking experimental results during the last de...
One promising way to manipulate light on the nanoscale is to exploit the properties of light when it...
We investigate the nonlinear propagation of light beams with complex phase and intensity structures,...
International audienceWe report the experimental observation of plasmon-soliton coupling. The demons...
Plasmon–exciton polaritons arise from the coherent coupling of the localized plasmon of metal nanopa...
We investigate a periodic array of aluminum nanoantennas embedded in a light-emitting slab waveguide...
A major aim in experimental nano- and quantum optics is observing and controlling the interaction be...
International audienceMerging the fields of plasmonics and nonlinear optics authorizes a variety of ...
We study nonlinear propagation of light in colloidal suspension of metallic nanoparticles, in the re...
The study of metal nanoparticles plays a central role in the emerging novel technologies employing o...
We investigate the interaction of focused Gaussian and radially-polarized beams with a silver nanosp...
Strong light-matter interaction leads to the appearance of new states, i.e. exciton-polaritons, with...
International audienceMerging the fields of plasmonics and nonlinear optics authorizes a variety of ...