Submitted via IRC for BoyceMagooglyMonkey
[...] A new analysis by researchers at UC Santa Cruz, published June 14 in Monthly Notices of the Royal Astronomical Society, explains these and other puzzling features of active galactic nuclei as the result of small clouds of dust that can partially obscure the innermost regions of AGNs.
[...] The findings have important implications because researchers use the optical emissions from the broad-line region to make inferences about the behavior of the gases in the inner regions around a supermassive black hole.
[...] "Once the dust crosses a certain threshold it is subjected to the strong radiation from the accretion disk," said Harrington. "This radiation is so intense that it blows the dust away from the disk, resulting in a clumpy outflow of dust clouds starting at the outer edge of the broad-line region."
The effect of the dust clouds on the light emitted is to make the light coming from behind them look fainter and redder, just as Earth's atmosphere makes the sun look fainter and redder at sunset. In their paper, Gaskell and Harrington present several lines of observational evidence supporting the existence of such dust clouds in the inner regions of active galactic nuclei. They developed a computer code to model the effects of dust clouds on observations of the broad-line region.
Source: https://www.sciencedaily.com/releases/2018/06/180614213615.htm
(Score: 1) by khallow on Monday June 18 2018, @01:00PM
Gravity has a way of making small perturbations in a near uniform distribution of mass bigger and hence, triggering galaxy formation in the early universe. Electromagnetism does not. For example, note how this site [plasma-universe.com] describes "plasmoids":
In other words, a huge, relatively coherent energy input and a medium. We have the medium, we don't have the coherent energy input.