Supernova debris speeds up neutron stars, strengthening magnetic fields. This explains why low-intensity magnetars still produce bursts.

Loggerhead turtles “dance” when exposed to food-associated magnetic fields, and their magnetic map may help them return to ...

A new trick for illuminating the internal ordering within a special type of magnet could help engineers build better ...

Discover how sea turtles navigate the ocean using their internal GPS and learn about their magnetic field perception.

An international team of scientists has modeled the formation and evolution of the strongest magnetic fields in the universe.

Sea turtles are capable of creating GPS-like magnetic maps to guide them back to foraging grounds, and they do a little dance ...

A study using data from ESA's Swarm mission suggests that faint magnetic signatures created by Earth's tides can help us determine magma distribution under the seabed and could even give us insights ...

A perfectly preserved ancient tree fossil offered scientists an unprecedented view into a moment 42,000 years ago when the Earth’s magnetic field went haywire. The compelling 2021 study tells the ...

Scientists have uncovered the long-sought mechanism behind low-field magnetars, showing that supernova fallback material ...

Earth’s magnetic field is detected by species across the animal kingdom, but new research suggests that sea turtles may be ...

An international team of scientists have modelled formation and evolution of strongest magnetic fields in the Universe.