Add to ORKG\u3cp\u3eWe investigate the chiro-optical properties of the electromagnetic near-field associated with the excitation of collective optical resonances (surface lattice resonances) in achiral plasmonic lattices. These arrays are specially designed to support dispersive resonances with nontrivial, multipolar near-field distributions in the surroundings of the nanostructure, which gives rise to an enhanced chiro-optical response. The presence of these multipolar resonances in lattices without explicitly broken mirror symmetry is experimentally confirmed by far-field extinction measurements, while the angular, spectral, and spatial dependence of the associated chiral near-field are numerically simulated. In contrast with typical pseudochiral sy...
The interaction of circularly polarized light with matter is the basis for molecular circular dichro...
Chiral plasmonic systems have been shown to exhibit large chiroptical responses, much larger than th...
We theoretically examine the spatiotemporal evolution of enhanced near-field optical chirality (OC) ...
We investigate the chiro-optical properties of the electromagnetic near-field associated with the ex...
Collective excitation of periodic arrays of metallic nanoparticles by coupling localized surface pla...
In this work, we demonstrate superchiral light generation based on achiral plasmonic surfaces. At re...
International audienceOptically active achiral metasurfaces offer a promising way to detect chiral m...
We report a new approach for creating chiral plasmonic nanomaterials. A previously unconsidered, far...
Recent efforts in the field of surface-enhanced spectroscopies have focused on the paradigm of "supe...
Chiroptical effects are routinely observed in three dimensional objects lacking mirror symmetry or q...
Recent progress in nanofabrication has redrawn the boundaries of the applicability of chiroptical (c...
This book describes the physics behind the optical properties of plasmonic nanostructures focusing o...
Molecular chirality plays fundamental roles in biology. The chiral response of a molecule occurs at ...
Chiral plasmonic nanoantennas manifest a strong asymmetric response to circularly polarized light. P...
The interaction of circularly polarized light with matter is the basis for molecular circular dichro...
Chiral plasmonic systems have been shown to exhibit large chiroptical responses, much larger than th...
We theoretically examine the spatiotemporal evolution of enhanced near-field optical chirality (OC) ...
We investigate the chiro-optical properties of the electromagnetic near-field associated with the ex...
Collective excitation of periodic arrays of metallic nanoparticles by coupling localized surface pla...
In this work, we demonstrate superchiral light generation based on achiral plasmonic surfaces. At re...
International audienceOptically active achiral metasurfaces offer a promising way to detect chiral m...
We report a new approach for creating chiral plasmonic nanomaterials. A previously unconsidered, far...
Recent efforts in the field of surface-enhanced spectroscopies have focused on the paradigm of "supe...
Chiroptical effects are routinely observed in three dimensional objects lacking mirror symmetry or q...
Recent progress in nanofabrication has redrawn the boundaries of the applicability of chiroptical (c...
This book describes the physics behind the optical properties of plasmonic nanostructures focusing o...
Molecular chirality plays fundamental roles in biology. The chiral response of a molecule occurs at ...
Chiral plasmonic nanoantennas manifest a strong asymmetric response to circularly polarized light. P...
The interaction of circularly polarized light with matter is the basis for molecular circular dichro...
Chiral plasmonic systems have been shown to exhibit large chiroptical responses, much larger than th...
We theoretically examine the spatiotemporal evolution of enhanced near-field optical chirality (OC) ...