Event type | Supernova |
---|---|
Type Ia (presumably) | |
Date | c. 6200 BC (discovered 30 April 1006) |
Constellation | Lupus |
Right ascension | 15h 2m 8s |
Declination | −41° 57′ |
Epoch | J2000 |
Galactic coordinates | 327.6+14.6 |
Distance | c. 7,200 ly |
Remnant | Shell |
Host | Milky Way |
Progenitor | 2 White dwarfs |
Colour (B-V) | Japanese observers describe as blue-white at visible spectrum[1] |
Notable features | Brightest supernova in recorded history, and therefore most described of the pretelescopic era |
Peak apparent magnitude | −7.5[2] |
Other designations | SN 1006, SN 1006A, SN 1016, SNR G327.6+14.6, SNR G327.6+14.5, 1ES 1500-41.5, MRC 1459-417, XSS J15031-4149, PKS 1459-41, AJG 37, 4U 1458-41, 3U 1439-39, 2U 1440-39, MSH 14-4-15, PKS 1459-419, PKS J1502-4205 |
Preceded by | SN 393 |
Followed by | SN 1054 |
Related media on Commons | |
SN 1006 was a supernova that is likely the brightest observed stellar event in recorded history, reaching an estimated −7.5 visual magnitude,[3] and exceeding roughly sixteen times the brightness of Venus. Appearing between April 30 and May 1, 1006, in the constellation of Lupus, this "guest star" was described by observers across China, Japan, modern-day Iraq, Egypt, and Europe,[1][4] and was possibly recorded in North American petroglyphs.[5] Some reports state it was clearly visible in the daytime. Modern astronomers now consider its distance from Earth to be about 7,200 light-years or 2,200 parsecs.[2]
Murdin
was invoked but never defined (see the help page).