A two-dimensional lamellar crystal composed of atomically thin layers of lead iodide (PbI₂) could be used to manufacture a new generation of circuits ...

Researchers at the Hong Kong University of Science and Technology have developed an active pixel power control system that adjusts laser brightness pixel-by-pixel during brain imaging. The technique ...

A new holographic storage technique uses light in three dimensions to dramatically increase how much data can be stored. It encodes information throughout a material using amplitude, phase, and ...

Argonne and Northwestern University scientists teamed up to understand how light interacts with metallic nanoframes, with implications for biosensing, quantum information science and beyond. Imagine ...

The Massachusetts Life Sciences Center (MLSC), a state agency that provided $2.6 million in funding to Brandeis University's Light Microscopy Facility, visited campus Friday for a ribbon-cutting ...

Imagine using light to control chemical reactions that could break down pollutants or diagnose diseases. To bring about these potentially transformative advancements in catalysis, biosensing and ...

(Nanowerk Spotlight) In the age of big data, we are generating more images than we can actually process. Autonomous vehicles, medical scanners, and quality control systems rely heavily on ...

Numerical examples for explaining the basic procedure for computational light control. (a) Single-lens optical imaging system with three distributed apertures. (b) Phase tilt is added to the small ...

Researchers developed a new type of spectral shaper that can shape the spectrum of 10,000 lines of light from a laser frequency comb. The image shows the spatial light modulator they used with a 2D ...