A new microchip-sized device could dramatically accelerate the future of quantum computing. It controls laser frequencies ...

In the realm of general relativity, black holes are well-known for their ability to trap light and matter by bending spacetime, creating a point of no return. While black holes have fascinated ...

Over the past decades, engineers have introduced numerous technologies that rely on light and its underlying characteristics.

Stanford engineers debuted a new framework introducing computational tools and self-reflective AI assistants, potentially ...

A new "lensless" device could help, as it uses light to instantly detect harmful microorganisms. Usually, in order to check drinking water for bacteria, a sample of that water must be cultured in a ...

A chip-scale interface entangles light and electronic states without cryogenic cooling, bringing quantum networking hardware ...

A collaborative team has developed a new way to create magnetic optical materials, one that removes a long-standing design ...

Researchers have developed a new 3D printing method called blurred tomography that can rapidly produce microlenses with commercial-level optical quality. The new method may make it easier and faster ...

Setup of the laser speckle contrast optical spectroscopy system used to monitor scalp and brain blood flow during temporary blockage of a major scalp artery near the temple. WASHINGTON, Oct. 21, 2025 ...

Optical logic gates represent a cutting‐edge approach to perform computation entirely with light, bypassing the limitations inherent to electronic components. By exploiting light’s phase, intensity, ...

In the realm of general relativity, black holes are well-known for their ability to trap light and matter by bending spacetime, creating a point of no return. While black holes have fascinated ...