"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." ...

Neutron stars can have a resounding impact around the universe. Scientists recently announced the first detection of gravitational waves created by two neutron stars smashing into each other.

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

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

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

Neutron star "mountains" would be much more massive than any on Earth—so massive that gravity just from these mountains could produce small oscillations, or ripples, in the fabric of space and time.

Australian scientists have discovered a collapsed star called a neutron star that spins thousands of times slower than expected. The star, called ASKAP J1839-075, is one of a number of recent ...

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

An international team of scientists led by McGill University researchers has provided the clearest evidence yet that some fast radio bursts (FRBs)—enigmatic, millisecond-long flashes of radio waves ...