Description
Transcript: An accretion disk is a hallmark of an active galactic nucleus. Supermassive black holes accrete gas from the surrounding galaxy mostly coming from normal mass loss from stellar processes or from infall from the intergalactic medium. When this gas eventually works its way to within the central parsec, it forms a hot, dense, thick disk which shares the rotation of the embedded black hole. The characteristic temperature of this gas mixed with dust is a few tens of thousands of degrees Kelvin which means that its thermal radiation peaks in the far ultraviolet. This peak radiation is not visible from the ground and so must be observed from space. Astronomers have seen the characteristic hallmark of accretion disks in a number of AGN. The UV emission emerges from a distance of ten to a thousand times the Schwarzschild radius of the supermassive black hole.
Transcript: The fact that quasars are at large distances and have huge luminosities depends on the cosmological interpretation of their redshift. There are some crucial distinctions between galaxies and quasars as far as redshift goes. For galaxies they follow a Hubble relation where distance...
Published 07/28/11
Transcript: Quasars were mysterious when they were first discovered in the 1960s. But careful work showed that the quasar is surrounded by nebulosity, and eventually spectroscopy of the nebulosity showed that it was the light of stars in a normal galaxy. Thus quasar stands for quasi-stellar...
Published 07/28/11
Transcript: Astronomers at Caltech became interested in the newly accurate radio positions of strong sources in the sky. They focused in particular on two sources, 3C48 and 3C273 which appeared to be associated with bluish stars. Since normal stars like the Sun do not emit strong radio waves...
Published 07/28/11