InstaLOD 2026 simplifies and scales 3D asset preparation, helping teams move from source data to production-ready ...

Explore the 2026 evolution of football data. Learn how Bayesian models, xT metrics, and biometric sensors are transforming match ...

At first glance, few materials would seem to have less in common than metals and textiles. And yet, by manufacturing nickel-titanium alloys as a highly deformable, interwoven material, more similar to ...

Every crystal's shape is a mirror of the internal arrangement of its molecules, but the molecules in photoswitchable crystals ...

Microelectromechanical systems (MEMS) electrothermal actuators are widely used in applications ranging from micro-optics and microfluidics to nanomaterial testing, thanks to their compact size and ...

Scientists may have narrowed down the landing site of the Soviet Union's Luna 9, which in 1966 became the first spacecraft to ...

Google's Genie generates infinite interactive worlds from text. The secret? AI models compress reality's rules into ...

Today the world of Egyptology faces a silent crisis – not of looting, although that plays a part, but of disconnection. Walk ...

Achieving sub-second 3D printing, DISH combines wave-optics modeling and angular illumination to improve resolution and depth ...

Atmospheric aerosols influence climate forcing, air quality, visibility, and human health, but their properties vary widely across space and time. Satellite instruments equipped with multi-angle and ...

IMDEA and UPM have developed deformable woven nitinol metamaterials that combine metal strength with textile flexibility.

Your brain calculates complex physics every day and you don't even notice. This neuromorphic chip taps into the same idea.