SN 1979C

SN 1979C
Event type	Type II supernova
	Type II
Date	1979
Constellation	Coma Berenices
Right ascension	12h 22m 58.58s
Declination	+15° 47′ 52.7″
Epoch	J2000.0
Galactic coordinates	G271.2454 +76.8848
Distance	50 Mly
Remnant	?
Host	M100
Progenitor	?
Progenitor type	?
Colour (B-V)	?
Peak apparent magnitude	+12.23
Other designations	SN 1979C, AAVSO 1217+16
	[edit on Wikidata]

SN 1979C was a supernova about 50 million light-years away in Messier 100, a spiral galaxy in the constellation Coma Berenices. The Type II supernova was discovered April 19, 1979 by Gus Johnson, a school teacher and amateur astronomer.^[2] This type of supernova is known as a core collapse and is the result of the internal collapse and violent explosion of a large star. A star must have at least 9 times the mass of the Sun in order to undergo this type of collapse.^[3] The star that resulted in this supernova was estimated to be in the range of 20 solar masses.^[1]

On November 15, 2010 NASA announced that evidence of a black hole had been detected as a remnant of the supernova explosion. Scientists led by Dr. Dan Patnaude from the Center for Astrophysics | Harvard & Smithsonian in Cambridge, MA evaluated data gathered between 1995 and 2007 from several space based observatories. NASA's Chandra X-ray Observatory, the Swift Gamma-Ray Burst Mission, as well as the European Space Agency's XMM-Newton, and Germany's ROSAT all participated in the examination.^[4]

The researchers observed a steady source of X-rays and determined that it was likely that this was material being fed into the object either from the supernova or a binary companion. However, an alternative explanation would be that the X-ray emissions could be from the pulsar wind nebula from a rapidly spinning pulsar, similar to the one in the center of the Crab Nebula.^[4] These two ideas account for several types of known X-ray sources. In the case of black holes the material that falls into the black hole emits the X-rays and not the black hole itself. Gas is heated by the fall into the strong gravitational field.

SN 1979C has also been studied in the radio frequency spectrum. A light curve study was performed between 1985 and 1990 using the Very Large Array radio telescope in New Mexico.^[5]

References[edit]

^ ^a ^b Nancy Atkinson (November 15, 2010). "Has a Recent, Nearby Supernova Become a Baby Black Hole?". Universe Today. Retrieved 2010-11-18.
^ Peter Edmonds (November 16, 2010). "The Man Who Discovered SN 1979C and Beat the Machines". Harvard & Smithsonian. Retrieved 2010-11-21.
^ Gilmore, Gerry (2004). "The Short Spectacular Life of a Superstar". Science. 304 (5697): 1915–1916. doi:10.1126/science.1100370. PMID 15218132. S2CID 116987470. Retrieved 2007-05-01.
^ ^a ^b Trent Perrotto; Janet Anderson; Megan Watzke (Nov 15, 2010). "NASA'S Chandra Finds Youngest Nearby Black Hole". NASA. Archived from the original on 2016-03-03. Retrieved 2010-11-15.
^ Weiler, K. W.; van Dyk, S. D.; Discenna, J. L.; Panagia, N.; Sramek, R. A. (1991). "The 10 year radio light curves for SN 1979C". Astrophysical Journal. 380: 161–166. Bibcode:1991ApJ...380..161W. doi:10.1086/170571.

External links[edit]

Light curves and spectra Archived 2021-05-22 at the Wayback Machine on the Open Supernova Catalog
SN 1979C in M100
A Tour of SN 1979C (narration of podcast by Dr. Dan Patnaude)

[ut-1] Nancy Atkinson (November 15, 2010). "Has a Recent, Nearby Supernova Become a Baby Black Hole?". Universe Today. Retrieved 2010-11-18.

[harvard-2] Peter Edmonds (November 16, 2010). "The Man Who Discovered SN 1979C and Beat the Machines". Harvard & Smithsonian. Retrieved 2010-11-21.

[3] Gilmore, Gerry (2004). "The Short Spectacular Life of a Superstar". Science. 304 (5697): 1915–1916. doi:10.1126/science.1100370. PMID 15218132. S2CID 116987470. Retrieved 2007-05-01.

[nasa-4] Trent Perrotto; Janet Anderson; Megan Watzke (Nov 15, 2010). "NASA'S Chandra Finds Youngest Nearby Black Hole". NASA. Archived from the original on 2016-03-03. Retrieved 2010-11-15.

[astro-5] Weiler, K. W.; van Dyk, S. D.; Discenna, J. L.; Panagia, N.; Sramek, R. A. (1991). "The 10 year radio light curves for SN 1979C". Astrophysical Journal. 380: 161–166. Bibcode:1991ApJ...380..161W. doi:10.1086/170571.

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v t e Supernovae
Classes	Type Ia Type Iax Type Ib and Ic Type II (IIP, IIL, IIn, and IIb) Hypernova Superluminous Pair-instability Calcium-rich Common envelope jets supernova
Physics of	Carbon detonation Foe/Bethe Near-Earth Phillips relationship Nucleosynthesis p-process r-process γ-process Neutrinos
Related	Failed Fast blue optical transient Fast radio burst Gamma-ray burst Gravitational wave Kilonova Luminous red nova Micronova Nova Pulsar kick Quark-nova Soft gamma repeater Imposter pulsational pair-instability Symbiotic nova
Progenitors	Hypergiant yellow Red Luminous blue variable Supergiant blue red yellow White dwarf Wolf–Rayet star Super-AGB star Population III star
Remnants	Supernova remnant Pulsar wind nebula Neutron star pulsar magnetar Stellar black hole Compact star electroweak exotic quark Zombie star Local Bubble Superbubble Orion–Eridanus
Discovery	Guest star History of supernova observation Timeline of white dwarfs, neutron stars, and supernovae
Lists	Candidates Notable Massive stars Most distant Remnants In fiction
Notable	Barnard's Loop Cassiopeia A SN 1054 Crab Nebula iPTF14hls SN 1000+0216 Tycho's Kepler's SN 1885A SN 1987A SN 1994D SN 185 SN 1006 SN 2003fg Remnant G1.9+0.3 SN 2007bi SN 2011fe SN 2014J SN Refsdal Vela Remnant SN 2006gy ASASSN-15lh SN 2016aps SN 2018cow SN 2022jli
Research	ASAS-SN Calán/Tololo Survey High-Z Supernova Search Team Katzman Automatic Imaging Telescope Monte Agliale Supernovae and Asteroid Survey Nearby Supernova Factory Sloan Supernova Survey Supernova/Acceleration Probe Supernova Cosmology Project SuperNova Early Warning System Supernova Legacy Survey Texas Supernova Search
Category:Supernovae Commons:Supernovae

See also[edit]

References[edit]

External links[edit]