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

It is therefore likely that there are many more of these very slowly spinning sources in the Galaxy which has important implications for how neutron stars are born and age. Dr Manisha Caleb Follow me ...

The team used advanced numerical simulations to model the magneto-thermal evolution of these stars, finding that a specific dynamo process within the proto-neutron star can generate these weaker ...

A neutron star's almost incomprehensible density causes ... As they compress and shrink, this spinning speeds up because of the conservation of angular momentum—the same principle that causes ...

Astronomers Found a 'Dead Star' 1,600 Light-Years Away From Earth Sending out Mysterious Signals Every Two Hours Astronomers ...

A decade-long radio mystery has finally been solved: astronomers have linked repeating pulses to a white dwarf and red dwarf ...

Radio pulsars are spinning neutron stars from which we can observe flashes of radio waves in ... It quantifies the energy set free by a neutron star each second as its rotation slows down. Some of ...

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 unusually low for a neutron star.

"Some astrophysicists also have argued that sources might emit pulses at regular time intervals because they are spinning, so we only see the radio emission when source ... We hope this motivates ...