Neutron stars, the collapsed remnants of massive stars, hold the densest matter in the universe. These cosmic objects are ...

Scientists have discovered a new way to probe the interiors of neutron stars by using gravitational waves to turn them into ...

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

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

Researchers are delving into the world of starquakes to understand the densest matter in the universe within neutron stars.

An extremely slow pulsar has made scientists “slow down” their assumptions about other pulsars. The pace could be caused by a flashing magnetic field rather than pulsar rotation alone. Pulsars and ...

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

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

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

There is a lot of complicated but beautiful physics in understanding how this explosion takes place,” says Purdue University astronomer Danny Milisavljevic, who led the team behind the JWST images.

There are more stars in the universe than grains of sand on Earth. The latest estimates suggest there are around one septillion stars, which is a 1 followed by 24 zeros. Our sun is a typical G-type ...