Modern technology demands compact, efficient optical devices for cameras, sensors, and quantum systems. Metasurfaces offer ...

Van der Waals (vdW) materials are promising building blocks for next-generation nanophotonics because of their atomically smooth surfaces, diverse material families, and outstanding optical properties ...

Van der Waals (vdW) materials are promising building blocks for next-generation nanophotonics because of their atomically smooth surfaces, diverse ...

Modern life is increasingly shaped by light. Optical devices exist in smartphone cameras, medical sensors, and emerging quantum technologies. As these ...

Scientists have pioneered a way to make integrated circuits for light by depositing complex patterns of specialized materials ...

NTT Research, Inc., a division of NTT, today announced Dr. Tetsuomi Sogawa as the new director of its Physics & Informatics (PHI) Lab.

Computer chips that cram billions of electronic devices into a few square inches have powered the digital economy and transformed the world. Scientists may be on the cusp of launching a similar ...

For years, scientists have dreamed of using atomically thin van der Waals (vdW) materials to build faster, more efficient photonic chips. These materials can be stacked and tuned with extraordinary ...

In a lab at Osaka University, physicist Yoshiki Nakata and his colleagues fired a pulsed laser through a stack of three ...

The HARQ program seeks to transform how quantum computing systems are designed and scaled by moving beyond today’s one-qubit-to-rule-them-all approach.

This photonics innovator specializing in advanced optical tech reported a notable insider sale amid a year of exceptional ...