SoylentNews is people
SoylentNews
Submission Preview
Discovery of the Companions of Millisecond Pulsars
Story automatically generated by StoryBot Version 0.1.0a (Development).
Note: This is the complete story and will need further editing. It may also be covered by Copyright and thus should be acknowledged and quoted rather than printed in its entirety.
FeedSource: [PhysOrg] collected from rss-bot logs
Time: 2015-09-28 11:18:01 UTC
Original URL: http://phys.org/news/2015-09-discovery-companions-millisecond-pulsars.html [phys.org]
Title: Discovery of the companions of millisecond pulsars
Suggested Topics by Probability (Experimental) : 48.0 science 10.0 mobile 10.0 hardware 8.0 OS 6.0 digiliberty 4.0 techonomics 4.0 code 2.0 technomics 2.0 security 2.0 careers 2.0 business 2.0 breaking
--- --- --- --- --- --- --- Entire Story Below --- --- --- --- --- --- ---
Discovery of the companions of millisecond pulsars
Arthur T Knackerbracket has found the following story [phys.org]:
When a star with a mass of roughly ten solar masses finishes its life, it does so in a spectacular explosion known as a supernova, leaving behind as remnant "ash" a neutron star. Neutron stars have masses of one-to-several Suns, but they are tiny in size, only tens of kilometers. Neutron stars spin rapidly, and when they have associated rotating magnetic fields to constrain charged particles, these particles emit electromagnetic radiation in a lighthouse-like beam that can sweep past the Earth with great regularity every few seconds or less. Such neutron stars are known as pulsars. Pulsars are dramatic and powerful probes of supernovae, their progenitor stars, and the properties of nuclear matter under the extreme conditions that exist in these stars.
Some pulsars called millisecond pulsars spin much more quickly, and astronomers have concluded that in order to rotate so rapidly these objects must be regularly accreting material from a nearly companion star which in a binary orbit with it; the new material helps to spin-up the neutron star, which normally would gradually slow down. There are more than 200 known millisecond pulsars. An understanding of these pulsars has been hampered, however, by the fact that only about a dozen of them have had their companion stars directly detected and studied.
CfA astronomers Maureen van den Berg, Josh Grindlay, and Peter Edmonds and their colleagues used ultraviolet images from Hubble to identify the companion stars to two pulsar companions.
