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


If the big bang was the splitting of a huge Axion/ Higgs particle Dark Matter Black Hole (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.

Wednesday, March 11, 2015

Gamma radiation from new paradigm Dark Matter Black Holes in Dwarfs.

New paradigm dark matter black holes seem to be responsible for Gamma ray emission around  DWARF galaxies.

According to Quantum FFF Theory ( Function Follows Form) star formation of Dwarf galaxies is the product of cooperating dual new paradigm dark matter black holes in the form of large dual Herbig Haro objects.
These HH objects are supposed to be the dual primordial Galaxy Anchor Black Holes ( GABHs) kept at opposing sides of galaxies by the electric pressure of a system of dual jets as often observed in HH systems.
In the centre of the galaxy there is a so called White hole active, also able to attract matter but without lots of gamma rays.
These new paradigm GABHs should have produced most of the gas and dust concentrated inside the central galaxy.
After galaxy merging, these multiple GABHs are supposed to interact outside the central galaxy and form DWARF galaxies in between. These dwarfs have a more or less stable position outside the galaxy, dependant of the decline of the central jet pressure on the GABHs. By supernova production of small black holes inside the dwarfs, a secondary Dark Matter Black Hole system emerges inside the Dwarf, producing new gas and dust out of the Higgs vacuum with accompanied e-e+ annihilation and consequently gamma rays.
Detection of gamma rays from a newly discovered dwarf galaxy may point to dark matter.