A quark-nova is the hypothetical violent explosion resulting from the conversion of a neutron star to a quark star. Analogous to a supernova heralding the birth of a neutron star, a quark nova signals the creation of a quark star. The term quark-novae was coined in 2002 by Dr. Rachid Ouyed (currently at the University of Calgary, Canada)[1] and Drs. J. Dey and M. Dey (Calcutta University, India).[2]
YouTube Encyclopedic
-
1/3Views:20 1682 28914 858
-
Gluons: How color works in strong interactions
-
Quark star
-
Introduction to subatomic physics and subatomic particles: Part III
Transcription
The nova process
When a neutron star spins down,[further explanation needed] it may convert to a quark star through a process known as quark deconfinement. The resultant star would have quark matter in its interior. The process would release immense amounts of energy, perhaps explaining the most energetic explosions in the universe; calculations have estimated that as much as 1046 J could be released from the phase transition inside a neutron star.[3] Quark-novae may be one cause of gamma ray bursts. According to Jaikumar and collaborators, they may also be involved in producing heavy elements such as platinum through r-process nucleosynthesis.[4]
Candidates
Rapidly spinning neutron stars with masses between 1.5 and 1.8 solar masses are hypothetically the best candidates for conversion due to spin down of the star within a Hubble time. This amounts to a small fraction of the projected neutron star population. A conservative estimate based on this, indicates that up to two quark-novae may occur in the observable universe each day.[citation needed]
Hypothetically, quark stars would be radio-quiet, so radio-quiet neutron stars may be quark stars.[citation needed]
Observations
Direct evidence for quark-novae is scant; however, recent observations of supernovae SN 2006gy, SN 2005gj and SN 2005ap may point to their existence.[5][6]
See also
- QCD matter, also known as quark matter – Hypothetical phases of matter
- Quark-degenerate matter – Type of dense exotic matter in physics
- SN 2006gy – 2006 hypernova in constellation Perseus
- SN 2005gj – Supernova event observed on September 29, 2005
References
- ^ "Quark Nova Project". Retrieved 13 Sep 2018.
- ^ R. Ouyed; J. Dey; M. Dey (2002). "Quark-Nova". Astronomy and Astrophysics. 390 (3): L39–L42. arXiv:astro-ph/0105109. Bibcode:2002A&A...390L..39O. doi:10.1051/0004-6361:20020982. S2CID 124427846.
- ^ "Theories of Quark-novae". Archived from the original on October 7, 2012. Retrieved 11 Feb 2009.
- ^ Prashanth Jaikumar; Meyer; Kaori Otsuki; Rachid Ouyed (2007). "Nucleosynthesis in neutron-rich ejecta from Quark-Novae". Astronomy and Astrophysics. 471 (1): 227–236. arXiv:nucl-th/0610013. Bibcode:2007A&A...471..227J. doi:10.1051/0004-6361:20066593. S2CID 119093518.
- ^ Astronomy Now Online - Second Supernovae Point to Quark Stars
- ^ Leahy, Denis; Ouyed, Rachid (2008). "Supernova SN2006gy as a first ever Quark Nova?". Monthly Notices of the Royal Astronomical Society. 387 (3): 1193. arXiv:0708.1787. Bibcode:2008MNRAS.387.1193L. doi:10.1111/j.1365-2966.2008.13312.x. S2CID 15696112.
External links
- Quark-novae produce neutrino bursts, which can be detected by neutrino observatories
- Quark Stars Could Produce Biggest Bang (SpaceDaily) June 7, 2006
- Quark Nova Project animations (University of Calgary)
| Classes |   | |
|---|---|---|
| Physics of | ||
| Related | ||
| Progenitors | ||
| Remnants | ||
| Discovery | ||
| Lists | ||
| Notable | ||
| Research |
| |
This page was last edited on 1 April 2024, at 04:31