Fermilab Tevatron Bump explained according to Quantum FFF theory.

Here I present a proposal for the origin of the recent Fermilab’s Tevatron bump at 144 GeV-145 GeV. which untill now is explained to be a kind of Z or W particle variance.


See the image of my proposal for Z and W particle 3D configuration below, as it is assumed to be a combination of TWO 3D-spagetti propeller shapes of the Electron and Positron, according to Quantum FFF theory. Multiple propellers inside one Fermion together wit multiple connected Gluons, make it possible to construct all known particles.
So my Quantum FFF Theory could be named: Multiple Propeller String Theory or  3D-propeller String Theory.

At the right side of the 3D image the W+ and W- particles are shown as each others mirror particles. W- should have TWO Electron click-on propellers and ONE Positron propeller.
In contrast: W+ is equipped with TWO Positron propellers and ONE Electron propeller.
You will observe that there is room enough for extra “click-on” Electrons or Positrons making the W particle extra “massive” to  reach 145 GeV?.

Mass is in Quantum FFF theory explained as the capacity to change vacuum Higgs particles by a collision/scattering process, into a certain number of Gravitons per time unit. see: http://vixra.org/abs/1103.0002