Plasmonic colour manipulation in metasurface optics exploits the interaction of light with nanostructured metallic and dielectric layers to produce vivid, high‐resolution colours without pigments. By ...

A recent study has unveiled a transformative nonlinear optical metasurface technology. This new technology, characterized by structures smaller than the wavelength of light, paves the way for ...

Metasurface optics harness the ability of nanostructured, subwavelength scatterers to mould optical wavefronts on ultrathin, planar platforms. By spatially varying the geometry of individual ...

Metasurface technology is an advanced optical technology that is thinner, lighter, and more capable of precisely controlling light through nanometer-sized artificial structures than conventional ...

Detecting terahertz radiation using a quantum metasurface-based photoelectric tunable-step terahertz detector – a path to high sensitivity imaging and sensing in the far-infrared region of the ...

New license agreement enabling the proliferation of metasurface optics across high-volume consumer, automotive and industrial markets: from smartphone applications like biometrics, LIDAR and camera ...

A collaborative research group has developed a fully automated roll-to-roll manufacturing platform capable of producing large-area visible metalenses at a rate of 300 units per second, marking a major ...

STMicroelectronics (ST), a developer of semiconductor technologies and Metalenz, which creates metasurface optics, have announced a new license agreement. The companies intend to broaden ST’s ...

A collaborative research group led by Professor Gyoujin Cho and Professor Inki Kim of Department of Biophysics at Sungkyunkwan University, in partnership with Professor Junsuk Rho of the Department of ...