Metalenz metasurfaces are now on the market through its partnership with STMicroelectronics, marking the introduction of this revolutionary optical technology in real-world devices Metalenz’s ...

Researchers have developed a compact quantum detector that makes terahertz radiation much easier to detect. A specially ...

Being able to see light and detect radiation is of utmost importance at any frequency. While this challenge has been solved in the visible range, radiation detectors in the far-infrared and terahertz ...

Recent advances in metasurface optics have enabled the development of ultracompact spectrometers that combine spectral analysis with miniaturised form factors. By engineering arrays of subwavelength ...

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 ...

A terahertz quantum detector that once required bulky optics and an entire optical bench now fits on a chip small enough for portable scanning equipment. A team based at the University of Cambridge ...

A research team has developed a novel multidimensional sampling theory to overcome the limitations of flat optics. The study not only identifies the constraints of conventional sampling theories in ...

A project at Pennsylvania State University (Penn State) has developed a metasurface intended to extract polarimetric imaging data more rapidly and cost effectively than current methods. Described in ...

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 ...

All-optical computing provides a promising route to real-time, energy-efficient image processing by performing computations directly with light. However, conventional optical processors are often ...

Most quantum devices need to be chilled to near absolute zero to work. A new chip built at Stanford University does not. In a ...