Fornax A | |
Epoch: | J2000 |
Type: | (R')SAB(s)00 |
Dist Ly: | 62.0 ± 2.9 Mly (19.0 ± 0.9 Mpc) |
Z: | 1760 ± 10 km/s |
Appmag V: | 9.4 |
Size V: | 12′.0 × 8′.5 |
Constellation Name: | Fornax |
Notes: | Very bright at radio 1.4 GHz |
Names: | Fornax A, 3FHL J0322.6-3712e, WMAP J0322-3711, AM 0320-372, GSC 07026-00055, WMAP J0322-3712, APG 154, IRAS 03208-3723, PKS 0320-374, [CAC2009] S0373 CTA 23, IRAS F03207-3723, PKS 0320-37, [CHM2007] HDC 234 J032241.78-3712295, DUGRS 357-001, 1Jy 0320-374, PMN J0321-3658, [CHM2007] LDC 249 J032241.78-3712295, 1E 0320.7-3722, 1Jy 0320-373, PSCz Q03208-3723, [FWB89] Galaxy 479, 2E 761, 1Jy 0320-37, RR95 75a, [KFM98] 5, 2E 0320.7-3723, LEDA 12651, RX J032242-37125, [LB2005] NGC 1316 X1, ESO 357-22, 2MASX J03224178-3712295, RX J0322.7-3712, [VDD93] 28, ESO-LV 357-0220, MCG-06-08-005, 1RXS J032241.8-371239, [WCO2009] J032152-370824, FCC 21, MOST 0320-373, SGC 032047-3723.2, 2FGL J0322.4-3717, MRC 0320-373, VSOP J0322-3712, 3FGL J0322.5-3721, MSH 03-3-01, WMAP 138[1] |
NGC 1316 (also known as Fornax A) is a lenticular galaxy about 60 million light-years (18.4 million parsecs) away in the constellation Fornax. It is a radio galaxy and at 1400 MHz is the fourth-brightest radio source in the sky.
In the late 1970s, François Schweizer studied NGC 1316 extensively and found that the galaxy appeared to look like a small elliptical galaxy with some unusual dust lanes embedded within a much larger envelope of stars. The outer envelope contained many ripples, loops, and arcs. He also identified the presence of a compact disk of gas near the center that appeared inclined relative to the stars and that appeared to rotate faster than the stars (the mass-to-light ratio run in the center of NGC 1316 resembles that of many other giant ellipticals).[2] Based on these results, Schweizer considered that NGC 1316 was built up through the merger of several smaller galaxies. Such merger events may have fueled the central supermassive black hole, that has a mass estimated in 130–150 million of solar masses with gas, causing the galaxy to become a radio galaxy. He also states that NGC 1316 is comparable to the giant elliptical galaxies found in the centers of other clusters of galaxies. Using spectroscopy of its brightest globular clusters, the merger is estimated to have occurred ~3 billion years ago. NGC 1316 spans about 50 000 light-years.
It has been proposed too that NGC 1316 may be a galaxy in evolution that eventually will become a Sombrero-like system dominated by a large bulge. Accuracy of such destinations and build of current and future galaxies and galactic formations and research methods are well established.
NGC 1316 is located within the Fornax Cluster, a cluster of galaxies in the constellation Fornax. However, in contrast to Messier 87, which is a similar elliptical galaxy that is located in the center of the Virgo Cluster, NGC 1316 is located at the edge of the Fornax Cluster.
NGC 1316 appears to be interacting with NGC 1317, a small spiral galaxy to the north. However, that small spiral galaxy does not appear to be sufficiently large enough to cause the distortions seen in the structure of this galaxy.
NGC 1316 has hosted four supernovae (all type Ia): 1980N, 1981D, 2006dd and 2006mr.
At least two methods have been used to estimate the distance to NGC 1316: surface brightness fluctuation (SBF) in 2003 and planetary nebula luminosity function (PNLF) in 2006. Being a lenticular galaxy, it is not suitable to apply the cepheid variable method. Using SBF, a distance estimate of 20.0 ± 1.6 Mpc was computed. Using PNLF, 45 planetary nebula candidates were located and a distance estimate of 17.9 Mpc was computed. Averaged together, these two distance measurements give a combined distance estimate of 62.0 ± 2.9 Mly (19.0 ± 0.9 Mpc).