How pigeons can travel hundreds of miles and still find their way home has puzzled scientists for decades. New research suggests the answer may lie in an unexpected place: the liver. According to a ...

An illustration of the atomic structure of altermagnets. Neighboring atoms are rotated and their magnetic spins are flipped. Credit: Libor Šmejkal & Anna Birk Hellenes. For almost 100 years, ...

Somewhere between the galaxy clusters that dot the observable universe, enormous threads of hot, diffuse gas stretch across ...

Scientists have identified specialized iron-rich cells that could act as a natural compass in pigeons, shedding new light on one of nature’s greatest mysteries. For generations, the ability of pigeons ...

Researchers propose new way to detect altermagnets, a recently discovered class of materials that could make electronics more energy efficient.

Many members of the animal kingdom can detect the subtle undulations of Earth’s magnetic field. Relying on a hidden ...

A new study suggests pigeons’ livers contain iron-rich immune cells that act as magnetic sensors, helping the birds detect magnetic field.

Iron-rich cells in the birds’ liver could help explain how pigeons and other animals navigate with help from Earth’s magnetic field.

"Backrooms" is earning rave reviews from critics, but what's that ending all about? Here's our deep dive into the buzzy ...

Scientists have observed a completely new type of magnetic structure for the first time by using extremely short laser ...

Pigeons sense the Earth's magnetic pull via immune cells in their liver, a new study says. Andreas Teichmann, laif/Redux ...