Topological defects, a cornerstone in both quantum and classical physics, represent disruptions in an ordered system that are ...

MIT physicists have discovered a new magnetic state in an antiferromagnetic material using terahertz light, opening doors to revolutionary memory technologies resistant to magnetic interference. By ...

The chameleon, a lizard known for its color-changing skin, is the inspiration behind a new electromagnetic material that ...

When people think about fiber optic cables, it's usually about how they're used for telecommunications and accessing the ...

Honda Research Institute USA develops nanoribbon materials for quantum communication, enhancing security in sensitive ...

Using a servo-controlled truss, a unique 3D surface can dynamically transition between absorption, reflection, and ...

“Any failure can result in a catastrophic accident. Normally, the reliability of the transmission and control systems is ...

In parallel with animal studies, researchers analyzed data from over 10,000 patients who underwent cataract surgery. Patients who received blue light-filtering lenses—which transmit less blue ...

The optical transceiver, shipments projected to grow by 56.5% in 2025; data center interconnectivity set to benefit from ...

23 in the journal Advanced Materials. "We hope that these new material designs will eventually lead to ultra-light weight components in aerospace applications, such as planes, helicopters and ...

Scientists at Honda Research Institute USA, Inc. (HRI-US) have made a significant breakthrough in the fields of quantum ...

In today’s rapidly advancing technological landscape, electronic materials are the foundation of countless devices and systems that power our daily lives. From smartphones and laptops to advanced ...