Quantum Gravity and String Theory

   

Kilonova Merger Black Holes as the Origin of Dark Matter Black Hole Halo Population.

Authors: Leo Vuyk

Small KiloNova Merger Black Holes could be the origin of micro lensing Dark Matter Micro QSO Galaxy Halo population and 511 KeV Halo point sources. Halton Arp was the first astronomer who observed accelerating QSO objects ( Quasi Stellar Objects or Quasars) out of the galaxy into the halo sphere. Now we suggest (according to Quantum FFF Theory) that dark matter is the same as black holes small or large , which are assumed to accelerate away from local gravity centers just as observed by H.Arp. At the same time it is assumed that the dark matter structure of the galaxy halo is mainly based on small black holes formed by Neutron star mergers. Reason to search for so called gravitational micro QSO lensing events in the MW halo also called MACHO, Masco or Salco. A second Halo postulation, is that the Big Bang was the evaporation and splitting of a former Big Crunch black hole nucleus of compressed Axion Higgs particles. This Big Crunch real particle based nucleus created the oscillating Axion /Higgs field vacuum lattice and numerous chunky nuclei of massive dark matter black holes. The oscillating vacuum Lattice is supposed to represent a dynamic reference frame of flux tubes, and the so called Dark Energy or Zero Point Energy acting as the motor for all Fermion spin and as the transfer medium for all photon information, leading to local lightspeed and local time. The local lattice length is called Planck length, which is assumed to vary dependent on the distance to local vacuum absorbers in the form of black hole nuclei, which grow continuously, in contrast with the so called Hawking evaporation of black holes. The energetic vacuum lattice is also assumed to act as a Gravity Quantum Dipole Repeller because gravitons are not supposed to attract- but repel Fermions, however with less impulse than the vacuum dark energy particles. As a consequence, Feynman diagrams become more complex than before

Comments: 36 Pages.

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[v1] 2017-10-23 04:19:04

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