NGC 383 explained

NGC 383
Ra:[1]
Z:0.017005
Type:S0
Dist Ly:209,000,000 ly
64 Mpc[2]
Appmag V:13.4
Size V:2.34´X1.95´
Names:3C 31, NGC 383, UGC 689, LEDA 3982, 4C 32.05, QSO B0104+321

NGC 383 is a double radio galaxy[3] with a quasar-like appearance located in the constellation Pisces. It is listed in Halton C. Arp's 1966 "The Arp Atlas of Peculiar Galaxies." Recent discoveries by the National Radio Astronomy Observatory in 2006 reveal that NGC 383 is being bisected by high energy relativistic jets traveling at relatively high fractions of the speed of light. The relativistic electrons in the jets are detected as synchrotron radiation in the x-ray and radio wavelengths. The focus of this intense energy is the galactic center of NGC 383. The relativistic electron jets detected as synchrotron radiation extend for several thousand parsecs and then appear to dissipate at the ends in the form of streamers or filaments.

There are four other nearby galaxies NGC 379, NGC 380, NGC 385, and NGC 384 which are suspected of being closely associated with NGC 383, as well as several other galaxies at relatively close distance.

Two supernovae have been observed in NGC 383: SN 2015ar (type Ia, mag. 18.8)[4] and SN 2017hle (type Ia, mag. 18).[5]

See also

External links

Notes and References

  1. Web site: NASA/IPAC Extragalactic Database . Results for QSO B0104+321 . 2006-10-26 .
  2. Web site: Distance Results for NGC 383 . NASA/IPAC Extragalactic Database . 2010-03-31 .
  3. NGC 383.
  4. https://www.wis-tns.org/object/2015ar Transient Name Server entry for SN 2015ar.
  5. https://www.wis-tns.org/object/2017hle Transient Name Server entry for SN 2017hle.