An extremely slow pulsar has made scientists “slow down” their assumptions about other pulsars. The pace could be caused by a ...

Radio waves have been detected from what appears to be a pulsar, with just one problem – it‘s spinning thousands of times ...

While neutron stars typically rotate in milliseconds or seconds, ASKAP J1839-075 takes an astonishing 6.45 hours to complete ...

A newly discovered neutron star is behaving so strangely that it may alter our understanding of the dense remains left behind ...

Australian researchers have discovered a dead star that takes hours rather than milliseconds to spin, challenging scientists' ...

When some of the biggest stars reach the end of their lives, they explode in spectacular supernovas and leave behind ...

Neutron stars, the dense remains of massive stars that have exploded in supernovae, are some of the most fascinating objects ...

Scintillation measurements show that FRB 20221022A originated from the highly magnetized region around a neutron star, challenging existing models of conditions there ...

A neutron star spinning every 6.5 hours, ASKAP J1839-0756, challenges astrophysics by emitting radio waves defying theories, ...

But now, a rare burst has provided indications that FRBs likely originate near the star and that they share a feature with the emissions of pulsars, another subtype of neutron star. Both of these ...

Those events are akin to throwing a pebble in a pond, but there are vibrations all the time. Some of them might end up making ...

Collapsed dead stars, known as neutron stars, are a trillion times denser than lead, and their surface features are largely ...