SN 185

Supernova SN 185
Other designations	SN 185, SNR G315.0-02.3, SNR G315.4-02.3, 1ES 1436-62.4, 1RXS J144254.3-622815
Event type	Supernova remnant, supernova
Spectral class	Type Ia?
Date	7 December 185
Constellation	Circinus and Centaurus
Right ascension	14h 43m
Declination	−62° 30′
Epoch	J2000
Galactic coordinates	G315.4−2.3
Distance	2,800 pc (9,100 ly)[1]
Remnant	Shell
Host	Milky Way
Notable features	Ancient records of SN 185 may be the earliest written description of a supernova.
Peak apparent magnitude	"as much as -8"[2]
Preceded by	None known
Followed by	SN 386
	[edit on Wikidata]

SN 185 was a transient astronomical event observed in AD 185, likely a supernova. The transient occurred in the direction of Alpha Centauri, between the constellations Circinus and Centaurus, centered at RA 14^h 43^m Dec −62° 30′, in Circinus. This "guest star" was observed by Chinese astronomers in the Book of Later Han,^[3] and might have been recorded in Roman literature.^[2] It remained visible in the night sky for eight months. This is believed to be the first supernova for which records exist.

The following record was given by the Chinese of the supernova:

In the 2nd year of the epoch Zhongping [中平], the 10th month, on the day Kwei Hae [December 7], a strange star appeared in the middle of Nan Mun [asterism containing Alpha Centauri], It was like a large bamboo mat. It displayed the five colors, both pleasing and otherwise. It gradually lessened. In the 6th month of the succeeding year it disappeared.

The gaseous shell RCW 86 is probably the supernova remnant of this event and has a relatively large angular size of roughly 45 arc minutes^[1] (larger than the apparent size of the full moon, which varies from 29 to 34 arc minutes). The distance to RCW 86 is estimated to be 2,800 parsecs (9,100 light-years).^[1] Recent X-ray studies show a good match for the expected age.^[4]

Infrared observations from NASA's Spitzer Space Telescope and Wide-field Infrared Survey Explorer (WISE) reveal how the supernova occurred and how its shattered remains ultimately spread out to great distances. The findings show that the stellar explosion took place in a hollowed-out cavity, allowing material expelled by the star to travel much faster and farther than it would have otherwise.^[5]

Differing modern interpretations of the Chinese records of the guest star have led to quite different suggestions for the astronomical mechanism behind the event, from a core-collapse supernova^[5] to a distant, slow-moving comet^[6] – with correspondingly wide-ranging estimates of its apparent visual magnitude (−8 to +4). The recent Chandra results suggest that it was most likely a Type Ia supernova (a type with consistent absolute magnitude),^[5]^[7] similar therefore to Tycho's Supernova (SN 1572), which had apparent magnitude −4 at a similar distance.

Infrared images from NASA's Spitzer Space Telescope and WISE are combined with X-ray data from the Chandra X-ray Observatory and ESA's XMM-Newton Observatory in this image of RCW 86.

References

1 2 3 Völk HJ; Berezhko EG; Ksenofontov LT (2005). "Magnetic field amplification in Tycho and other shell-type supernova remnants". Astron. Astrophys. 433 (1): 229&ndash, 40. arXiv:astro-ph/0409453. Bibcode:2005A&A...433..229V. doi:10.1051/0004-6361:20042015.
1 2 Stothers, Richard (1977). "Is the Supernova of A.D. 185 Recorded in Ancient Roman Literature?". Isis. 68 (3): 443&ndash, 447. doi:10.1086/351822. JSTOR 231322.
↑ Zhao FY; Strom RG; Jiang SY (2006). "The Guest Star of AD185 Must Have Been a Supernova". Chinese J. Astron. Astrophys. 6 (5): 635&ndash, 40. Bibcode:2006ChJAA...6..635Z. doi:10.1088/1009-9271/6/5/17.
↑ "New evidence links stellar remains to oldest recorded supernova". ESA News. 2006-09-18. Retrieved 2006-05-24.
1 2 3 "NASA Telescopes Help Solve Ancient Supernova Mystery". NASA. 2011-10-24. Retrieved 2011-10-25.
↑ Y.-N. Chin; Y.-L. Huang (29 September 1994). "Identification of the Guest Star of AD 185 as a comet rather than a supernova" (PS). Nature. pp. 398–399. Bibcode:1994Natur.371..398C. doi:10.1038/371398a0.
↑ Williams, Brian J.; et al. (October 2011). "RCW 86: A Type Ia Supernova in a Wind-blown Bubble". The Astrophysical Journal. 741 (2): 96. arXiv:1108.1207. Bibcode:2011ApJ...741...96W. doi:10.1088/0004-637X/741/2/96.

External links

NASA Astronomy Picture of the Day: RCW 86: Historical Supernova Remnant (28 September 2006)
NASA Astronomy Picture of the Day: RCW 86: Historical Supernova Remnant (10 November 2011)
BBC News – Ancient supernova mystery solved (25 October 2011)

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[Volk-1] 1 2 3 Völk HJ; Berezhko EG; Ksenofontov LT (2005). "Magnetic field amplification in Tycho and other shell-type supernova remnants". Astron. Astrophys. 433 (1): 229&ndash, 40. arXiv:astro-ph/0409453. Bibcode:2005A&A...433..229V. doi:10.1051/0004-6361:20042015.

[stothers-2] 1 2 Stothers, Richard (1977). "Is the Supernova of A.D. 185 Recorded in Ancient Roman Literature?". Isis. 68 (3): 443&ndash, 447. doi:10.1086/351822. JSTOR 231322.

[Zhao-3] Zhao FY; Strom RG; Jiang SY (2006). "The Guest Star of AD185 Must Have Been a Supernova". Chinese J. Astron. Astrophys. 6 (5): 635&ndash, 40. Bibcode:2006ChJAA...6..635Z. doi:10.1088/1009-9271/6/5/17.

[4] "New evidence links stellar remains to oldest recorded supernova". ESA News. 2006-09-18. Retrieved 2006-05-24.

[nasa-2011-10-24-5] 1 2 3 "NASA Telescopes Help Solve Ancient Supernova Mystery". NASA. 2011-10-24. Retrieved 2011-10-25.

[Chin-6] Y.-N. Chin; Y.-L. Huang (29 September 1994). "Identification of the Guest Star of AD 185 as a comet rather than a supernova" (PS). Nature. pp. 398–399. Bibcode:1994Natur.371..398C. doi:10.1038/371398a0.

[ApJ-2011-10-21-7] Williams, Brian J.; et al. (October 2011). "RCW 86: A Type Ia Supernova in a Wind-blown Bubble". The Astrophysical Journal. 741 (2): 96. arXiv:1108.1207. Bibcode:2011ApJ...741...96W. doi:10.1088/0004-637X/741/2/96.

Supernovae
Classes	Type Ia Type Ib and Ic Type II (IIP, IIL, IIn, and IIb)
Physics of	Calcium-rich supernovae Carbon detonation Pair-instability supernova Phillips relationship P-nuclei P-process R-process Supernova nucleosynthesis Supernova neutrinos
Related	Supernova impostor Pulsational pair-instability supernova Foe Gamma-ray burst Failed supernova Hypernova Kilonova Nova Symbiotic nova Luminous red nova Near-Earth supernova Pulsar kick Quark-nova
Progenitors	Hypergiant Yellow Luminous blue variable Supergiant Blue Red Yellow White dwarf Related links Wolf–Rayet star
Remnants	Supernova remnant Pulsar wind nebula Neutron star Pulsar Magnetar Related links Stellar black hole Related links Compact star Quark star Exotic star 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 Crab Crab Nebula iPTF14hls Tycho's Kepler's SN 1987A SN 185 SN 1006 SN 2003fg Remnant G1.9+0.3 SN 2007bi SN 2011fe SN 2014J SN Refsdal Vela Remnant
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
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SN 185

See also

References

External links