noun a type of lens that uses nanotechnology to focus light in ways not possible with traditional lenses
Metalenses are used in optics to control the phase of light waves, leading to improved imaging resolution and focusing capabilities.
Metalenses are of interest in physics for their ability to manipulate light at the subwavelength scale, enabling new research opportunities.
Metalenses are studied in materials science for their unique properties and potential applications in advanced optical systems.
Metalenses are utilized in photonics for applications such as beam shaping, polarization control, and wavefront manipulation.
Metalenses are a key component in nanotechnology for creating compact and efficient optical devices at the nanoscale.
Metalens technology can be used in photography to improve the quality of images by reducing chromatic aberrations and increasing sharpness.
Metalenses are used in optical engineering to design and create compact and lightweight optical systems with improved performance.
Physicists use metalenses in research and experiments to manipulate light at the nanoscale level and study its interactions with materials.
Metalenses are of interest to materials scientists for their unique properties and potential applications in areas such as imaging, sensing, and telecommunications.