Thursday, February 14, 2019

The LHC found not ONE but TWO SuSy Higgs bosons?.

It is a well known opinion, that the Large Hadron Collider ( CERN) did not find (SuSy) super symmetric particles, which was expected before the LHC started up.
However, according to the  ( Q-FFF Model) Quantum FFF Model , SuSy fermion particles can not even be created at all,  if we live inside a chiral oscillating vacuum field of oscillating-dark energy particles (coined Axion-Higgs particles).
According to the Q-FFF 3D rigid string model, SuSy fermions would directly fall apart after creation, before any collider would be able to measure its existence.
However, some Bosons seem to be different.
Why? because the LHC did measure for the Higgs of 125 GeV not a so called "Spike"but a so called "Bump"  spread over a certain area between 123.5 and 126 GeV with a smaller spike for 126 than for 123.5 GeV.
My suggestion is, that the LHC measured here TWO SuSy particle configurations ( see poster)
Just as the mirror symmetric Z (a and b) and W- , W+ particles seem to be each others SuSy particle.
The Z and W-bosons are never directly observed, only their decay products are measured, due to their short lifetime..
see:
3-Dimensional String based alternative particle model.
http://vixra.org/pdf/1103.0002v4.pdf