High Energy Particle Physics


LHC Signals Between 121-130 Gev Interpreted with Quantum-FFF Theory

Authors: Leo Vuyk

In Quantum Function Follows Form theory, (Q-FFF) the Higgs particle is interpreted as a massless transformer particle able to create the universe by transforming its shape after real mechanical collision and able to merge with other shaped particles into composite geometrical knots called Quarks and some Leptons (Muons and Tauons). Singular particles are; the two Leptons: the Electron and Positron, different shaped Photons, Gluons and neutrinos all originated out of one single transformed Higgs. As a result, Q-FFF theory leads to a NON Standard Model of elementary particles, also described in this paper. As a consequence the recent Large Hadron Collider (LHC) results, showing special values between 121-130 GeV for the predicted signal of the massive Standard Model (SM) Higgs, should be interpreted as the result of one or more different composite particle decay- and collision processes and not as the result of Higgs decay. In this paper I present some possible transformations after the collision of (Non- SM) Proton particles interpreted as Quark- Gluon cloud collisions, into the observed production and decay results such as, gg into Di-Photons, ZZ into 4 Lepton or WW into LvLv .

Comments: 24 Pages. 24

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Submission history

[v1] 2011-12-20 08:16:30
[v2] 2011-12-21 09:35:23

Unique-IP document downloads: 248 times

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