A cosmic enigma, ASKAP J1839-0756, a slow-spinning neutron star discovered using the ASKAP radio telescope, is challenging ...

1108-1113 (6 pages) ABSTRACT The possible detection of the fastest spinning nuclear‐powered pulsar XTE J1739−285, of frequency 1122 Hz (0.8913 ms), arouses ... Spun up by the accreting materials to ...

A research team led by McGill identifies neutron stars as the likely source of fast radio bursts, one of the universe's most ...

Astronomers discovered a mysterious 2-hour radio pulse from a hidden white dwarf system, revealing a new type of stellar duo ...

An international team of astrophysicists from China and Australia has for the first time determined how massive neutron stars ...

Is a rotating neutron star powered by rotational energy loss or by magnetic-field decay? The answer seems to be yes. On a dark night you can see a thousand stars above, each like the Sun shining ...

Neutron stars are very small and dense stars, where roughly half a million earth masses of material are squeezed into a city-sized volume with a radius of 10 km.

Get Instant Summarized Text (Gist) Simulations indicate that the low-mass star in the J0453+1559 binary system could be a neutron star rather than a white dwarf. The star's mass, 1.174 M ⊙, is ...

"The study makes it plausible that the mysterious low-mass object of 1.17 solar masses in system J0453+1559 is indeed a ...

When a massive star runs out of fuel and collapses ... he's been studying one of the closest neutron stars to earth, known as a millisecond pulsar. It's rotating at 174 times per second - that's ...