Wednesday, January 05, 2022

James Webb could discover the "Cold Dark Matter Black Hole Big Bang" of Q-FFF Theory.

The James Webb Telescope could discover a new Cold Big Bang and early new star forming Herbig Haro systems: Observable by two hotspot black holes with star formation in the middle only in the early stage  connected with two plasma jets. see Hubble of the Carina Nebula infrared image.
see also: Primordial Black Holes and Dual Herbig Haro Effects for Star-Galaxy Formation
 https://vixra.org/pdf/2101.0158v1.pdf
James Webb could discover the Dark Matter Black Hole Big Bang of Q-FFF Theory by early dustclouds around expelled Big Bang black holes jyst as seen in the Carina Nebula.(right image)see: 
Right image: Interesting to see, that each faint infrared spot has a second spot nearby with equal size, and sometimes a third one in the middle (the young star.) 
The dual Herbig Haro Jets seem observable only clearly, in the early stage at the top of the triangle clouds.
The James Webb telescope is specialized in infrared measurement, far away but also close by. This means that Black Holes will be discovered by their infrared radiation of the faint dust clouds around them, as the Q-FFF Theory supports, far away and more close by, like the tandem black holes of each star forming Herbig Haro system connected to two plasma jets.
see images. of the Carina Nebula with herbig Haro dual infra-red black hole hotspots with young DWARF STARS IN THE MIDDLE (by Hubble in infrared)
(THIS IS STILL NOT ACCEPTED ASTROPHYSICS. but you may judge yourself)

Interesting to see, that each infrared spot has a second spot nearby with equal size, and sometimes a third one in the middle (the young dark star.)  The dual Herbig Haro Jets, seem observable only in the early stage at the top of the triangle clouds.  As a conclusion: These Herbig Haro systems seem to loose their plasma jets very quickly in these mini black hole systems.  It is assumed that the original mini black holes are expelled being the former star spots from a dying local star.

Comparison of the Carina Nebula in visible light (left) and infrared (right), both images by Hubble.In the infrared image, we can see more infra red hotspots that weren't visible before. Credit: NASA/ESA/M. Livio & Hubble 20th Anniversary Team (STScI)

The same is supposed to happen in the early Big Bang area, because according to Q-FFF Theory the big bang was the explosion of the giant bunch od String Knots into smaller ones, compacted by the decreasing pressure of this Big Crunch of the former multi-universe. see below:

For the Cold Cyclic Big Bang String Theory   See also: https://bigbang-entanglement.blogspot.com/2021/07/the-cold-cyclic-big-bang-string-theory.html


A good example of the Herbig Haro structure with two Black Holes and a star in between.
WE see here the Herbig Haro triple structure of what I call a MOTHER STAR, which is growing by the input of the local Axion particle vacuum . 
See here the Herbig Haro triple structure of what I call a MOTHER STAR, which is growing by the input of the local vacuum untill it becomes unstable and will spit-out one star or even two new stars, having reached the maximum Black Hole size related  stability. (Herbig Haro) 
This star will produce a different nebula after dying with a globular structure !!atiles untill it becomes unstable and will spit out one star or even two new stars, without a dual Black Hole stability. (Herbig Haro) 
This star will produce a different nebula after dying with a globular structure !! a so called RING NEBULA.


See also: a Herbig Haro Nebula NGC 6543. with more than two (4x) symmetric Black Hole structure.
below; : 

See also the Helix  ring nebula, without clear black hole structures.