Quasars are early HH systems with plasma creation at the dual black hole based hotspots.
According to Quantum FFF Theory, all Quasars are produced by the trillions of paired black holes spawn by the big bang and creating early Herbig Haro objects, with star and galaxies forming in between.
The dual black holes (the hotspots) are supposed to produce all the plasma needed for star formation in the center.
After stellar Super Nova black hole production, a growing central black hole is created by merging with other BHs supposed to be the forerunner of the Big Crunch.
Some Gamma ray bursts (GRB) are supposed to be produced by exploding central Quasar stars into central supernova black holes in combination with lots of "sunspot black holes"
These sunspot black holes seem to be able to accelerate and form paired black holes as a base for new smaller HH systems with star formation in the middle as the start of open star clusters..
A magical start of a new spiral galaxy able to merge with other spirals to form Ellipticals.
New paradigm of star/galaxy formation and dying.
Supernova Black holes are not able to merge directly after creation with each other, only inside the crowded center of a galaxy they are supposed to do.
So: the recent detected LIGO merger black holes are supposed to be located inside the dying center of a galaxy.
The center of galaxies are so crowded with black holes that the oscillating Higgs vector field become very complex and no linear Herbig Haro systems with linear ion jets are possible.
As a result, the ion jets are decreasing and not able to separate the black holes any more from each other which makes black hole mergers possible
An other signal for the contraction of the universe:
The annihilation of central dark matter black holes in the MW.
See also: Possible signature of dark matter annihilation detected
March 28, 2016
A false-color image of the anomalous gamma-ray emission from the central region of the Milky Way galaxy; this emission is suspected of coming from dark matter annihilation. In this image, the emission from conventional sources has been subtracted from the total. The region covers roughly five degrees; the brightest emission is colored red and faintest blue. Credit: Daylan et al.
Read more at:
http://phys.org/news/2016-03-signature-dark-annihilation.html