Recent discussions about the need for a successor of
the Large Hadron Collider called the FCC Future Circular Collider (Cern), is
reason to search for “Tweaks” or
extensions of the current paradigms about Wimps (Weak Interacting Massive
Particles) and Super Symmetric
particles.
Example: Nima Arkani-Hamed: “where in the world are SuSy and Wimps? SEE THIS
Quantum FFF Theory (
Function Follows Form) seems to be able to fill in those questions by an adapted
paradigm about special relativity, the SuSy multiverse based on instant entangled
super symmetric particles and the suggestion for monopole photon based microscopic
Wimps and Dark Matter Black Holes.
See: https://www.researchgate.net/publication/331036207_Novel_Ideas_About_Dark_Matter_and_the_SuSy_Multiverse
The SuSy particle zoo of Quantum FFF Theory.
see also: https://disqus.com/by/leo_vuyk/
Interesting quote from the article: see also: https://disqus.com/by/leo_vuyk/
All SuSy (super symmetry) Fermion Propeller Shaped Rigid String Knots (right) and the 2x Higgs Bosson Anti Propellers (left) Every Quark ( Right) has 3 QCD variant knots and 3 SUSY anti Knots.
The (anti) Muon has the same configuration as two of the Down Quarks.
The (anti) Muon has the same configuration as two of the Down Quarks.
The (anti) Tau has the same configuration as two of the Charm Quarks.
Examples of Tiny SuSy Higgs Mass differences ( 123.5/ 126 GeV.) due to our Chiral Vacuum Lattice. ( according to Quantum -FFF Theory)
Examples of Tiny SuSy Higgs Mass differences ( 123.5/ 126 GeV.) due to our Chiral Vacuum Lattice. ( according to Quantum -FFF Theory)
https://www.forbes.com/sites/startswithabang/2019/02/12/why-supersymmetry-may-be-the-greatest-failed-prediction-in-particle-physics-history/#549d72769e6d
"In contrast with the other SM particles, the Higgs boson doesn't make a single 'spike' in the data, but rather a spread-out bump, due to its inherent uncertainty in mass. Its mass of 125 GeV/c^2 is a puzzle for physics"
Imho, The bump seems to be the average of TWO spike masses : 123.5 and 126 GeV.
My suggestion : the Higgs is the only dual SuSy particle in our material universe that is able to survive long enough its shape before decay, to be measured.
All the other SuSy particles do not hold long enough against the chiral oscillating Vacuum , before decay to have the chance to leave a decay trace to be measured.
Why? we live inside a material universe with its own chiral quantum vacuum.
So only in our mirror symmetric susy raspberry multiuniverse far away, only SParticles can survive long enough. See below: