SN 386
SN 386 is a probable transient astronomical event in the constellation Sagittarius, which appeared as a "guest star" that was reported by Chinese astronomers in 386 CE.
Record
"Emperor Xiaowu of Jin, 11th year of the Taiyuan reign period, third month. There was a guest star in Nandou that lasted until the 6th month, when it disappeared".Nandou, the Southern Dipper, is part of the constellation of Sagittarius. The only historical information is: Something flared up there and was visible for ~3 months. As this asterism is in or close to the bulge of the Milky Way, the object should have been bright to be recognized against bright background of the clouds of the Milky Way.
Suggested as supernova
Due to the given duration of the appearance, this record was suggested to report a supernova. Since 1976 several SNR in the relatively crowded field have been suggested as counterpart:| Designation | Source | Comments |
| G011.2–01.1 | Stephenson & Green, p. 182 | First guess from radio data |
| G011.2–00.3 | Stephenson & Green, p. 182 | - |
| G007.7–03.7 | Zhou et al. | Possible after X-ray observations |
| G008.7–05.0 | Also small and at appropriate position |
These remnants are valid suggestions but the supernova is supposed to be a "low luminosity SN" because it lasted only for three months. Thus, a classical nova would also be possible.
Suggested as classical nova
The decline time of classical novae is measured typically as the duration of decline by 3 mag from peak. This so-called t3 time ranges from typical 25–30 days for fast novae up to ten months for the slowest known classical novae. Thus, this historical transient could easily have been caused by a classical nova: postulating a peak brightness of 2 mag for the historical sighting and vanishing to invisibility within 3 months, it could be a moderately fast nova. The brighter the peak, the faster the nova: if the peak was −1 mag or −4 and declined to >5 mag within three months it likely refers to a really fast nova. Possible candidates in the Chinese constellation of Nandou are according to:| Designation | Comments |
| V1223 Sgr | Intermediate polar |
| V3890 Sgr | Known recurrent nova |
| Four further symbiotic binaries |
Supernova remnant: SNR G11.2-0.3
Although SN 386 was generally considered to be associated with the symmetrically 4 arcmin circular shell of a supernova remnant, SNR G11.2-0.3, this theory is now thought not to be true. Its stellar progenitor was likely a Supernova Type II event. Recent studies give the more precise type as core-collapsed Type cIIb/Ibc.A measured mean expansion rate of this remnant shell is 0.0277±0.0180% per year, whose true diameter is now about, suggesting its age is 1900±500 years. Quoted distances estimated SNR G11.2–0.3 to be about away from Earth, but more recent radio observation now range between.
Rejection of SNR G11.2–0.3's association with SN 386 is by the significant very high absorption of light between the source and Earth, which is estimated from infrared observations as about 16 magnitudes. This suggests the star would not have been visible to the naked-eye.
Pulsar: PSR J1811-1926
At the centre of G11.2–0.3 is a fast rotating 65 ms neutron star observed in radio frequencies as pulsar PSR J1811-1926 or as X-ray source AX J1811-1926, which has also generated a small inner 10 to 15 arcsec pulsar wind nebula. This pulsar and its surrounding debris field was observed by the Chandra X-ray Observatory, when it was suggested SN 386 could have been created around the same time as the Chinese observations, but more modern observed measured rotational velocities, spin down rate, and radio observations ofPSR J1811-1926, indicate a much older 20,000 to 23,000 years. If true, this clearly discounts the conclusion that the pulsar is associated with SN 386. The clear contradiction comparing this with the age determined by the expansion rate of the supernova remnant seems yet to be ascertained.
The distance of the pulsar was estimated in 2003 as.