The Artemis 2 astronauts will venture deeper into space than any human has gone before. That presents some seriously exciting ...

Scientists still don’t know how the brain turns physical activity into thoughts, feelings, and awareness—but a powerful new tool may help crack the mystery. Researchers at MIT are exploring ...

For decades, mysterious magnetic signals in superconductors were attributed to exotic forms of superconductivity. New work ...

A strange, glowing form of matter called dusty plasma turns out to be incredibly sensitive to magnetic fields. Researchers found that even weak fields can change how tiny particles grow, simply by ...

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

Scientists have demonstrated that light alone can reversibly control magnetism in a topological material. Researchers at the ...

"A strong magnetic field is very important for life on a planet," study lead Miki Nakajima, an associate professor in the department of Earth and environmental sciences at the University of Rochester ...

In addition to shaping the interior of rocky planets, molten rock located deep within these planets may also contribute to ...

Quantum computers, systems that process information leveraging quantum mechanical effects, could reliably tackle various ...

All celestial bodies—planets, suns, even entire galaxies—produce magnetic fields, affecting such cosmic processes as the solar wind, high-energy particle transport, and galaxy formation. Small-scale ...

Koch, who studied vision, thought that by measuring people's brain responses as they looked at special optical illusions, scientists could figure out which parts of the brain are activated when ...

Water doesn’t behave the same way in a glass as it does as ice in your freezer. When water is heated to several thousand ...