Add to ORKGInternational audienceLight localization is controlled at a scale of lambda/10 in the harmonic regime from the far-field domain in a plasmonic nanoantenna.The nanoantenna under study consists of three aligned spheres 50 nm in diameter separated by a distance of 5 nm. By simply tuning the orientation of an incident plane wave, symmetric and antisymmetric mode balancing induces a strong enhancement of the near-field intensity in one nanogap while nullifying the light intensity in the other nanogap. Furthermore, it is demonstrated that the dipolar moment of a plasmonic particle can be fully extinguished when strongly coupled with a dimer of identical nanoparticles
AYagi-Uda-like optical nanoantenna concept using resonant core-shell plasmonic particles as its “ref...
The peculiar properties of a pair of nanoantennas fed at a gap region have been studied. The possibi...
By utilizing the strongly induced plasmon coupling between discrete nano-antennas and quantitatively...
The large cross sections and strong confinement provided by the plasmon resonances of metallic nanos...
Optical nanoantennas coherently scatter incident optical radiation, creating a localized electromagn...
International audienceA trimer of gold particles 50 nm in diameter is illuminated in oblique inciden...
We investigate theoretically and experimentally the structure of plasmonic modes in individual asymm...
Aeschlimann M, Bauer M, Bayer D, et al. Deterministic control of subwavelength field localization in...
We study theoretically the optical response of graded linear arrays of noble metal nanospheres in wh...
We study theoretically the optical response of graded linear arrays of noble metal nanospheres in wh...
International audienceGold nanocones acting as optical antennas offer an excellent geometry for focu...
We study the directional far-field response of a spherical nanoantenna via engineering the plasmonic...
Colloidal metal nanoparticles are renowned for their ability to strongly scatter and absorb light du...
The excitation of plasmonic dark modes via a radiative channel is a phenomenon strongly hindered in ...
Melchior P, Bayer D, Schneider C, et al. Optical near-field interference in the excitation of a bowt...
AYagi-Uda-like optical nanoantenna concept using resonant core-shell plasmonic particles as its “ref...
The peculiar properties of a pair of nanoantennas fed at a gap region have been studied. The possibi...
By utilizing the strongly induced plasmon coupling between discrete nano-antennas and quantitatively...
The large cross sections and strong confinement provided by the plasmon resonances of metallic nanos...
Optical nanoantennas coherently scatter incident optical radiation, creating a localized electromagn...
International audienceA trimer of gold particles 50 nm in diameter is illuminated in oblique inciden...
We investigate theoretically and experimentally the structure of plasmonic modes in individual asymm...
Aeschlimann M, Bauer M, Bayer D, et al. Deterministic control of subwavelength field localization in...
We study theoretically the optical response of graded linear arrays of noble metal nanospheres in wh...
We study theoretically the optical response of graded linear arrays of noble metal nanospheres in wh...
International audienceGold nanocones acting as optical antennas offer an excellent geometry for focu...
We study the directional far-field response of a spherical nanoantenna via engineering the plasmonic...
Colloidal metal nanoparticles are renowned for their ability to strongly scatter and absorb light du...
The excitation of plasmonic dark modes via a radiative channel is a phenomenon strongly hindered in ...
Melchior P, Bayer D, Schneider C, et al. Optical near-field interference in the excitation of a bowt...
AYagi-Uda-like optical nanoantenna concept using resonant core-shell plasmonic particles as its “ref...
The peculiar properties of a pair of nanoantennas fed at a gap region have been studied. The possibi...
By utilizing the strongly induced plasmon coupling between discrete nano-antennas and quantitatively...