At temperatures approaching absolute zero, most magnetic materials settle into tidy patterns. Their tiny magnetic moments, or ...

When electronics meet cosmic rays, bad things can happen. Chip makers need to test what their products can withstand, and ...

Aaron Rossini of Iowa State and Ames National Laboratory with the nuclear magnetic resonance instrument in his Hach Hall lab. Iowa State University/Christopher Gannon. Iowa State's Aaron Rossini has ...

Explore the exciting world of electromagnetism in Python Physics Lesson 29! This video explains how moving charges generate magnetic fields, breaking down complex concepts into clear, ...

Tiny highly uniform magnetic fields are known to pervade the universe, influencing various cosmological processes. To date, however, the physical mechanisms underpinning the generation of these fields ...

Levon Pogosian receives funding from the Natural Sciences and Engineering Research Council of Canada. The work described in this article was enabled in part by support provided by the BC DRI Group and ...

In the vast tapestry of avian adaptations, few abilities are as remarkable as magnetoreception – the capacity to detect Earth’s magnetic field. While humans rely on compasses and GPS for navigation, ...

Earth’s magnetic field is often treated as a steady planetary shield, but geological records reveal a far more dynamic and variable system. New research examining ancient ocean sediments suggests that ...

Two immense, ultrahot rock structures located at the base of Earth’s mantle, around 2,900 km beneath Africa and the Pacific, have been shaping Earth’s magnetic field for millions of years, according ...

Artistic depiction of a Super Earth. Image via Wikimedia. Super-Earths are the galaxy’s “middle children.” They are beefier than Earth but smaller than gas giants like Neptune. We find them everywhere ...