A rediscovered formula is changing how we understand the hidden journeys of airborne particles. Researchers at the University of Warwick have created a straightforward new way to predict how ...

The finding, based on data from the Daniel K. Inouye Solar Telescope in Hawaii, marks the first direct evidence of tiny twisting magnetic motions of energy-packed plasma waves in the sun's outer ...

Vincenzo Savona, head of the Laboratory of Theoretical Physics of Nanosystems. 2025 EPFL/Murielle Gerber- CC-BY-SA 4.0 ...

Moroccan rocks suggest that what had been thought to be wild, random movements of continents was actually Earth's magnetic ...

The rise of AI adoption in manufacturing is real, but it's being driven by business outcomes, not technological complexity.

Penn State scientists have unveiled a new theory-driven method to predict superconductors, offering a possible path toward ...

The 41-billion-token dataset QVAC Genesis I aims to decentralize AI development, bringing model training and reasoning to ...

Explore the Indian astro community's vision for advancing solar physics and space weather research through innovative ...

Driving a spacecraft around a planet isn’t anything like driving on a planet. A physicist explains orbital navigation.

A new study co-led by the University of Oxford and Google Cloud has shown how general-purpose AI can accurately classify real changes in the night sky—such as an exploding star, a black hole tearing ...

While it's likely to be a bumpy road, AI isn't about replacement; it's about about augmentating and amplifying human ...

Spin glasses are physical systems in which the small magnetic moments of particles (i.e., spins) interact with each other in ...