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.

Thursday, February 22, 2018

"Composite Higgs" models made from monopole string theory photons / Gluons

In Quantum FFF Theory, the Higgs Quantum knot of 125 GeV is assumed to be made out of monopole magnetic photons able to interfere with each other into a three particle knot.
However, the heavier Higgs particle are supposed to be a combination with the 375 GeV Higgs made out 4x xray photons ( see images below) 
However, All massive Higgs particles are assumed to be the base for stable- and unstable ( Ball lightning) black holes.
The mass less Axion Higgs ( ring shaped) is assumed to be the oscillating vacuum particle and responsible for dark energy and Casimir effect. 
See also: 
The Massless Axion-Higgs Vacuum Rigid String Particle, Even in Micro and Macro Dark Matter Black Hole Nuclei.




( Wikipedia: ) In particle physicscomposite Higgs models (CHM) are speculative extensions of the Standard Model (SM) where the Higgs boson is a bound state of new strong interactions. These scenarios are the leading alternative to supersymmetric models for physics beyond the SM presently tested at the Large Hadron Collider (LHC) in Geneva