For sure - galactic clusters. Expansion of the universe is demonstrated via the redshift of galactic clusters (outside of the local galactic cluster which hosts the Milky Way galaxy).
Pulsars may also provide some insight into expansion via the emission of their light signatures, but it is not generally considered a specific support (in and of itself).
Yes. All pulsars and neutron stars are the remnants of a supernova explosion.
Evidence suggests that all Neutron stars are pulsars or were once pulsars. In theoretical physics; the existence of objects like quark stars, preon stars, or electroweak stars is called into question. These are usually used to explain radio quiet neutron stars; however, far more likely these objects simply do not pulse at any rate in our relative direction.
Pulsars were discovered by accident in 1967 when Jocelyn Bell, working with Antony Hewish were looking for twinkling sources of radio radiation.
Pulsars --------------------------------------------Correction Pulsars are neutron stars that emit pulsating EM radiation at predictable frequencies. Obviously neutrons stars (something massive stars can collapse into when they die) are not the elementary particles of the universe. Therefore, 'quarks'.
A pulsar is a neutron star that rotates and sends a beam of electromagnetic radiation. This is known because only a very dense source of such radiation would be capable of rotating that quickly without disintegrating.
Clive Robinson has written: 'Searches for radio pulsars in 47 Tucanae and other globular clusters'
The Pulsars ended in 2000.
The Pulsars was created in 1994.
Pulsars are studied by astronomers.
Pulsars are created by supernovae.
Pulsars are located every where around the universe keep in mind pulsars are neutron stars so that means they were formed by large stars that have aged and died out
Yes. All pulsars and neutron stars are the remnants of a supernova explosion.
Marta Burgay has written: 'Radio pulsars' -- subject(s): Pulsars, Congresses
A pulsar. Neutron stars that are spinning rapidly can generate pulses of X-ray radiation, and are called "pulsars". Interestingly enough, the first discoveries of pulsars were termed "LGM objects", for "little green men"; before the structure was understood, scientists thought that the PRECISELY timed pulses of X-rays might have been some sort of interstellar radio beacons, a galactic electronic navigational aid.
Pulsars are not only a kind of neutron star, they are neutron stars. See related question.
All young neutron stars in reality are "pulsars". However, for a neutron star to be termed a pulsar, it's magnetic axis has to point towards Earth. (So we can see the pulse, even though all young neutron stars have a pulse, they cannot be observed from Earth.)
Pulsars and neutron stars are hot because of all the residual heat left over in the core of the original star.