Add to ORKGNanotechnology has enabled the development of nanostructured composite materials (metamaterials) with exotic optical properties not found in nature. In the most extreme case, we can create materials that support light waves that propagate with infinite phase velocity, corresponding to a refractive index of zero. This zero index can only be achieved by simultaneously controlling the electric and magnetic resonances of the nanostructure. We present an in-plane metamaterial design consisting of silicon pillar arrays, embedded within a polymer matrix. Using an integrated nano-scale prism constructed of the proposed material, we demonstrate a refractive index of zero in the optical regime. This design serves as a novel on-chip platform to explor...
This Letter studies a two-dimensional, membrane-based acoustic metamaterial with a near-zero refract...
Zero-index (ZI) materials are synthetic optical materials with a vanishing effective permittivity an...
The engineering of the spatial and temporal properties of both the electric permittivity and the ref...
Metamaterials with a refractive index of zero exhibit physical properties such as infinite phase vel...
Abstract: We numerically demonstrate an impedance-matched multilayer stacked fishnet metamaterial th...
Abstract: We numerically demonstrate an impedance-matched multilayer stacked fishnet metamaterial th...
Abstract: We numerically demonstrate an impedance-matched multilayer stacked fishnet metamaterial th...
Zero-index material is a typical metamaterial with an effective zero refractive index, possessing a ...
Near-zero refractive index metamaterials exhibit remarkable electromagnetic properties which can and...
Near-zero refractive index metamaterials exhibit remarkable electromagnetic properties which can and...
For centuries, the ability to control light is bounded by the limited range of materials’ refractive...
Multilayer combinations of plasmonic and dielectric materials can be designed as subwavelength struc...
Multilayer combinations of plasmonic and dielectric materials can be designed as subwavelength struc...
Research of metamaterials focuses on unprecedented optical properties that may be obtained from comp...
Optical fibers play a significant role in various practical applications from long-distance optical ...
This Letter studies a two-dimensional, membrane-based acoustic metamaterial with a near-zero refract...
Zero-index (ZI) materials are synthetic optical materials with a vanishing effective permittivity an...
The engineering of the spatial and temporal properties of both the electric permittivity and the ref...
Metamaterials with a refractive index of zero exhibit physical properties such as infinite phase vel...
Abstract: We numerically demonstrate an impedance-matched multilayer stacked fishnet metamaterial th...
Abstract: We numerically demonstrate an impedance-matched multilayer stacked fishnet metamaterial th...
Abstract: We numerically demonstrate an impedance-matched multilayer stacked fishnet metamaterial th...
Zero-index material is a typical metamaterial with an effective zero refractive index, possessing a ...
Near-zero refractive index metamaterials exhibit remarkable electromagnetic properties which can and...
Near-zero refractive index metamaterials exhibit remarkable electromagnetic properties which can and...
For centuries, the ability to control light is bounded by the limited range of materials’ refractive...
Multilayer combinations of plasmonic and dielectric materials can be designed as subwavelength struc...
Multilayer combinations of plasmonic and dielectric materials can be designed as subwavelength struc...
Research of metamaterials focuses on unprecedented optical properties that may be obtained from comp...
Optical fibers play a significant role in various practical applications from long-distance optical ...
This Letter studies a two-dimensional, membrane-based acoustic metamaterial with a near-zero refract...
Zero-index (ZI) materials are synthetic optical materials with a vanishing effective permittivity an...
The engineering of the spatial and temporal properties of both the electric permittivity and the ref...