From galaxies to the Sun, new research explains how turbulent motion can produce large-scale magnetic fields that remain ...

The electrostatic potential of particular matter is a promising resource for energy harvesting. In a recent breakthrough, a team of researchers from Chung-Ang University has developed a ...

New simulations performed on a NASA supercomputer are providing scientists with the most comprehensive look yet into the ...

The Einstein–de Haas effect, which links the spin of electrons to macroscopic rotation, has now been demonstrated in a ...

The Einstein-de Haas effect has been observed in a quantum fluid, showing that changes in magnetization transfer angular ...

The atmospheric carbon dioxide was thought to be the result of the oxidation of oxygen molecules in the exosphere. As a ...

These newly discovered spinning crystals twist, break, and heal themselves, revealing a strange new side of solid matter.

Primordial black holes could rewrite our understanding of dark matter and the early universe. A record-breaking detection at ...

The observed near flatness of galactic rotation curves has long been interpreted as evidence for large amounts of non-baryonic dark matter. Here we show that this phenom ...

Electrons are usually described as particles, but in a rare quantum material, that picture completely breaks down ...

When my colleagues and I send them out to explore our solar system, it's important for us to understand the 3D map of our ...

NASA's SPHEREx and Hubble find mysterious 3I/ATLAS behaving strangely after perihelion. The interstellar visitor's 'mini-jets ...