Higgs Particle Based SIMPs for Ancient and Future (Stone) Cutting Technology.

Authors: Leo Vuyk

Strong Interacting Massive Particles (SIMPs) are recently assumed to relate to the Dark Matter phenomenon. (J. R. Espinosa, et al.) In Quantum FFF Theory ( FFF= Function Follow Form) however, Strong Interacting Massive Particles (or SIMPs) are described already as complex Quantum Knot Bosons in the form of “electric dark matter black hole” based ball lightning, micro Comets or even micro scale evaporating energy bullets found in silicon discharge globule experiments by the author. These Silicon globule structures show strong differences with normal Silicon matter, which was reason to compare these complexities in detail and make suggestions for future research. One of the clear phenomena is, that all globules show internal traces of evaporating tunneling energy bullets, which is supposed to be a first sign of evaporating (decaying) Quantum Knots or Dark Matter particles with the characteristic of small fireballs or Ball Lightning often observed in the natural environment. According to Quantum FFF Theory, postulates that ball lightning nuclei are created by Magnetic particle interference into complex slow evaporating ( decaying) Higgs based quantum knots . At the same time the LHC experiments showed us, that there should be Higgs particles of different mass series of 125 and 375 GeV. and even higher, which is reason to postulate that these mass series could be based on a form mechanical origin of the rigid string model of Quantum FFF Theory. Future LHC results could give us more support for such mechanical –mass related Higgs series of 750- and 1625 GeV. as a support for such a rigid string based click-on model for the Higgs and the resulting decay time extension related to traveling distance.. If science is able to produce specific Higgs related SIMPs with exact decay times and travelling distances in the lab, then we also may be able to create new hand held technology for light saber (Star Wars) alike based cutting and smoothing hard stone as we find all over the world in ancient large and small stone cut- and smoothed artifacts.

Comments: 19 Pages.

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Submission history

[v1] 2017-11-07 06:28:22

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