Pulsars are the remnants of large stars that exploded in a supernova. Check out these 7 stunning pulsar images shared by NASA ...

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

"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." ...

the remnants form a super-dense object called a neutron star. Pulsars are neutron stars that spin rapidly, emitting radio waves from their magnetic poles as they rotate. Most pulsars spin at ...

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

The cosmic blowtorch, which contains antimatter particles created from pure energy, is helping scientists to learn more about the space in between stars, NASA ... pulsar, a rapidly-spinning ...

This powerful dead star rotates once every 6.45 hours (nearly 24,000 seconds) in a category where other pulsars can take just 10 or 100 seconds to spin all the way around. Neutron stars ...

Collapsed dead stars, known as neutron stars, are a trillion times ... team of astronomers has reported the discovery of a new pulsar, which received the designation PSR J1631–4722.

The discovery has been published in Nature Astronomy. The researchers believe ASKAP J1839-075, is a "pulsar", a high-energy neutron star that releases short bursts of radio waves. But conventional ...

BECAUSE of the conjecture that pulsars are neutron stars, which are possibly produced in supernova events, the possible association of pulsars with supernova remnants is of great interest.

Rocket Lab USA, Inc. (NASDAQ:RKLB) disclosed an agreement with NASA to include its Neutron rocket under the existing Venture-Class Acquisition of Dedicated and Rideshare contract. The Neutron ...

This powerful dead star rotates once every 6.45 hours (nearly 24,000 seconds) in a category where other pulsars can take just 10 or 100 seconds to spin all the way around. Neutron stars, including ...