Add to ORKGIn the late nineteenth century, Heinrich Hertz demonstrated that the electromagnetic properties of materials are intimately related to their structure at the subwavelength scale by using wire grids with centimetre spacing to manipulate metre-long radio waves. More recently, the availability of nanometre-scale fabrication techniques has inspired scientists to investigate subwavelength-structured metamaterials with engineered optical properties at much shorter wavelengths, in the infrared and visible regions of the spectrum. Here we review how optical metamaterials are expected to enhance the performance of the next generation of integrated photonic devices, and explore some of the challenges encountered in the transition from concept demonst...
Metamaterials are artificially constructed materials composed of sub-wavelength building blocks that...
Manipulating light is highly desired in photonics research. Restricted by the variable range of perm...
Optical metasurfaces are thin-layer subwavelength-patterned structures that interact strongly with l...
In the late nineteenth century, Heinrich Hertz demonstrated that the electromagnetic properties of m...
In the late nineteenth century, Heinrich Hertz demonstrated that the electromagnetic properties of m...
The availability of nanometer scale fabrication techniques has inspired scientists to investigate su...
The progress made in the field of photonic metamaterials including their use in subwavelength imagin...
We report our recent advances in development of subwavelength engineered dielectric metamaterial str...
The subwavelength patterning of planar structures is now widely used in silicon photonics, enabling ...
Patterning of thin metal films on the sub-wavelength scale can yield a range of functionalities inva...
Metamaterials, or engineered materials with rationally designed, subwavelength-scale building blocks...
Optical metamaterials—artificially structured materials with engineered electromagnetic responses at...
Waveguides structured at the subwavelength scale frustrate diffraction and behave as optical metamat...
Waveguides structured at the subwavelength scale frustrate diffraction and behave as optical metamat...
The development of metamaterials has opened the door for engineering electromagnetic properties by s...
Metamaterials are artificially constructed materials composed of sub-wavelength building blocks that...
Manipulating light is highly desired in photonics research. Restricted by the variable range of perm...
Optical metasurfaces are thin-layer subwavelength-patterned structures that interact strongly with l...
In the late nineteenth century, Heinrich Hertz demonstrated that the electromagnetic properties of m...
In the late nineteenth century, Heinrich Hertz demonstrated that the electromagnetic properties of m...
The availability of nanometer scale fabrication techniques has inspired scientists to investigate su...
The progress made in the field of photonic metamaterials including their use in subwavelength imagin...
We report our recent advances in development of subwavelength engineered dielectric metamaterial str...
The subwavelength patterning of planar structures is now widely used in silicon photonics, enabling ...
Patterning of thin metal films on the sub-wavelength scale can yield a range of functionalities inva...
Metamaterials, or engineered materials with rationally designed, subwavelength-scale building blocks...
Optical metamaterials—artificially structured materials with engineered electromagnetic responses at...
Waveguides structured at the subwavelength scale frustrate diffraction and behave as optical metamat...
Waveguides structured at the subwavelength scale frustrate diffraction and behave as optical metamat...
The development of metamaterials has opened the door for engineering electromagnetic properties by s...
Metamaterials are artificially constructed materials composed of sub-wavelength building blocks that...
Manipulating light is highly desired in photonics research. Restricted by the variable range of perm...
Optical metasurfaces are thin-layer subwavelength-patterned structures that interact strongly with l...