The polarization of light is crucial for numerous optical applications ranging from quantum
information processing to biomedical sensing due to the fundamental role of polarization as …

Like amplitude, phase and frequency, polarization is one of the fundamental properties of
light, which can be used to record, process and store information. Optical metasurfaces are …

In the past several years, metasurfaces have emerged as one of the rapidly growing
research fields in optics. These ultrathin arrays composed of subwavelength meta-atoms …

Metasurfaces have been continuously garnering attention in both scientific and industrial
fields, owing to their unprecedented wavefront manipulation capabilities using arranged …

The full manipulation of intrinsic properties of electromagnetic waves has become the
central target in various modern optical technologies. Optical metasurfaces have been …

Although metasurfaces have shown great potential for manipulating light, most previously
realized meta-devices suffer from uncontrolled angular dispersions, making them …

In recent years, optical metasurfaces, ie, surface‐confined arrays of engineered
nanostructured elements (meta‐atoms), have become an emerging research area due to …

Achieving broadband and multifunctional response through a single optical device is a
highly sought-after capability for various applications like microscopy and optical imaging …

Regarded as a kind of smart surfaces, metasurfaces can arbitrarily tailor the amplitude,
phase, and polarization of light. Metasurfaces usually consist of subwavelength …

Optical metasurfaces is a rapidly developing research field driven by its exceptional
applications for creating easy-to-integrate ultrathin planar optical devices. The tight …