At upper right is a scanning electron microscope image of the structures. The figure below shows the experimentally measured refraction angle versus incidence angle for light, demonstrating how the nanoantennas alter the refraction. The researchers at Purdue University used the nanoantennas to abruptly change a property of light called its phase. Light is transmitted as waves analogous to waves of water, which have high and low points.
|Published (Last):||21 April 2019|
|PDF File Size:||17.26 Mb|
|ePub File Size:||16.89 Mb|
|Price:||Free* [*Free Regsitration Required]|
Cited By This article is cited by 32 publications. ACS Photonics , 6 9 , DOI: ACS Photonics , 6 1 , ACS Photonics , 5 11 , ACS Photonics , 5 9 , Analytical Chemistry , 90 18 , The Journal of Physical Chemistry C , 10 , Infrared Nanophotonics Based on Graphene Plasmonics. ACS Photonics , 4 12 , Kamran Akbari, Zoran L. ACS Photonics , 4 8 , Nano Letters , 17 8 , The Journal of Physical Chemistry C , 30 , Electrically modulating and switching infrared absorption of monolayer graphene in metamaterials.
Carbon , , Multiple Fano resonances in asymmetric rectangular ring resonator based on graphene nanoribbon. Results in Physics , 17, Fabrication of monolayer MoS2 nanogratings via single-pulse nanosecond laser interference lithography. Materials Letters , , Advanced Optical Materials , 7 23 , Optics Express , 27 13 , Dual-band, polarization-insensitive metamaterial perfect absorber based on monolayer graphene in the mid-infrared range.
Results in Physics , 13, Journal of the Optical Society of America B , 36 3 , Investigation of multiband plasmonic metamaterial perfect absorbers based on graphene ribbons by the phase-coupled method.
Graphene based tunable broadband far-infrared absorber. Superlattices and Microstructures , , Gilbert, Nadya Mason. Electronic transport in a two-dimensional superlattice engineered via self-assembled nanostructures.
Significantly enhanced infrared absorption of graphene photodetector under surface-plasmonic coupling and polariton interference. Optics Express , 26 23 , Efficient electrical detection of mid-infrared graphene plasmons at room temperature.
Nature Materials , 17 11 , Realization of mid-infrared broadband absorption in monolayer graphene based on strong coupling between graphene nanoribbons and metal tapered grooves. Optics Express , 26 22 , Graphene aperture-based metalens for dynamic focusing of terahertz waves.
Optics Express , 26 21 , Anqi Yu. Tunable strong THz absorption assisted by graphene-dielectric stacking structure. Superlattices and Microstructures.
COVID-19 Remote Access Support: