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

When neutron stars collide, they create a powerful gravitational-wave signal, with the post-merger remnant ringing like a ...

"Most of the external layers of a massive star are removed during the supernova, but some material falls back, making the neutron star spin faster." ...

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

By analyzing the 'long ringdown' phase - a pure-tone signal emitted by the post-merger remnant - scientists have found a ...

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

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

FRANKFURT. Neutron stars, with a mass greater than that of the entire solar system confined within a nearly perfect sphere just a dozen kilometers in diameter, are among the most fascinating ...

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

Scientists at Goethe University Frankfurt have identified a new way to probe the interior of neutron stars using gravitational waves from their collisions. By analyzing the "long ringdown" phase ...

If a star orbits a black hole, it will appear from a distance to be orbiting empty space. Gaia projects the star’s orbit on a ...