Quantum FFF Rigid String Theory ( FFF= Function Follws string Form)

QUANTUM FFF topological STRING THEORY and the Fermion Propeller.
http://vixra.org/author/leo_vuyk
https://www.flickr.com/photos_user.gne?
path=&nsid=93308747%40N05&page=&details=1

If the big bang was the splitting of a huge Axion/ Higgs particle Dark Matter Black Hole (ELISIUM DM- BH) nucleus into smaller DM-BH nuclei, then no standard Fermion/ Baryon inflation has happened only the DM-BH based Lyman alpha forest equipped with local Herbig Haro star/galaxy creating systems.

All black holes of all sizes (down to ball lightning) seem to be equipped with a Fermion repelling- and plasma producing horizon, which has also a charge splitting effect into a negative (outside) and positive ( inside) zone ( see oriental basin of the moon) .Conclusion, all Bhs are: "Negative Charged Electric Dark Matter Black Holes" with a rigid open string sector with intrinsic 3x hinging curvature.

Tuesday, April 02, 2019

4x things we could learn the next 10th of April's Horizon Telescope images.?

See:  https://www.sciencenews.org/article/event-horizon-telescope-first-image-black-hole-questions

4x things we could learn?
Questions:
1,What does a black hole really look like?
2,Does general relativity hold up close to a black hole?
3,How do some black holes make jets?
4,Do stellar corpses called pulsars surround the Milky Way’s black hole?
Answers suggested by Quantum-FFF Theory:
1, mostly with a fermion disc
2, Yes.
3, By the Planck length polarization due to additional adjacent black holes. e.g. two Herbig Haro Black holes, as the dual jet connection.
4, Yes, but only around the largest BHs such as central galaxy BHs. ( small BHs ( the pulsars) are eaten by larger BHs)  BHs with the same mass will form Herbig Haro systems with star formation in the middle.

see also:
https://www.researchgate.net/publication/267759588_The_Proper_Motion_of_the_Galactic_Center_Pulsar_Relative_to_Sagittarius_A 



In an interview with Newsweek following the 2017 observation period, Vincent Fish, a research scientist at MIT Haystack, said they hope to see the flow of material in and out of the black hole. “What we expect to see is an asymmetric image where you have a circular dark region. That’s the black hole shadow,” he said. “And there might be a bright ring at the edge of that—which is the photon ring [a spherical region of space where gravity is so strong photons are forced to travel in orbits]. Then around it you will see one side is bright and the other side is faint, so kind of like a crescent.”