Add to ORKGWe experimentally demonstrate a new mechanism to achieve magnetic resonances at visible and near-infrared frequencies in purely dielectric metamaterials, realized through a coupling between pairs of closely spaced, dissimilar dielectric rods
Rapid progress in the fields of plasmonics and metamaterials is driven by their ability to enhance n...
In the present study, we provide a detailed analysis for the study of photonic metamaterials. We dem...
We reveal that strong near-field coupling effects can be observed for dissimilar Mie-resonant dielec...
Paper presented at the 2014 MRS Spring Meeting & Exhibit held in San Francisco (CA, United States) o...
We reveal that strong near-field coupling effects can be observed for dissimilar Mie-resonant dielec...
Strong electrical dipole resonance (ER) with high quality-factor (Q) (over several thousands) in a s...
[EN] It is generally accepted that the magnetic component of light has a minor role in the light-mat...
Most optical metamaterials fabricated and studied to date employ metallic components resulting in si...
Quasi-dark resonances exhibiting antiferromagnetic order are theoretically investigated in a near-in...
An enhanced emission of high quantum yield molecules coupled to dielectric metasurfaces formed by pe...
We report on the realization of free-standing all-dielectric metamaterials in a variety of ultra-thi...
We review a new, rapidly emerging field of all-dielectric nanophotonics aimed at manipulating strong...
The advantages of gyrotopic materials are combined with the field of high-index metamaterials. The e...
Photonic manipulation with plasmonic materials is typically associated with high ohmic losses, which...
We experimentally and numerically study the angularly resolved transmission properties of dielectric...
Rapid progress in the fields of plasmonics and metamaterials is driven by their ability to enhance n...
In the present study, we provide a detailed analysis for the study of photonic metamaterials. We dem...
We reveal that strong near-field coupling effects can be observed for dissimilar Mie-resonant dielec...
Paper presented at the 2014 MRS Spring Meeting & Exhibit held in San Francisco (CA, United States) o...
We reveal that strong near-field coupling effects can be observed for dissimilar Mie-resonant dielec...
Strong electrical dipole resonance (ER) with high quality-factor (Q) (over several thousands) in a s...
[EN] It is generally accepted that the magnetic component of light has a minor role in the light-mat...
Most optical metamaterials fabricated and studied to date employ metallic components resulting in si...
Quasi-dark resonances exhibiting antiferromagnetic order are theoretically investigated in a near-in...
An enhanced emission of high quantum yield molecules coupled to dielectric metasurfaces formed by pe...
We report on the realization of free-standing all-dielectric metamaterials in a variety of ultra-thi...
We review a new, rapidly emerging field of all-dielectric nanophotonics aimed at manipulating strong...
The advantages of gyrotopic materials are combined with the field of high-index metamaterials. The e...
Photonic manipulation with plasmonic materials is typically associated with high ohmic losses, which...
We experimentally and numerically study the angularly resolved transmission properties of dielectric...
Rapid progress in the fields of plasmonics and metamaterials is driven by their ability to enhance n...
In the present study, we provide a detailed analysis for the study of photonic metamaterials. We dem...
We reveal that strong near-field coupling effects can be observed for dissimilar Mie-resonant dielec...