Rajan Iyer
Keywords: : Hod-PDP general circuitry, magnetic hysteresis loop, superluminal plenum quagmire turbulence, distorted discontinuum energy fields, Quantum mechanism.
Abstract: Intriguing derivations have made it possible to gage Helmholtz decomposition matrix fields of a point (2 × 2) matrix into Iyer-Markoulakis-Malaver-O’Neill-Hodge-Zhang-Taylor (IMMOHZT) Hod-PDP mechanism in a Superluminal Plenum quagmire per our earlier peer reviewed publications. The author has modeled schematic graphics of light-like photons as Planck sheets and the sound-like vibrations as vortex loops at the quantum level, based on the IMMOHZT Hod-PDP mechanism. The current model considers randomly oriented monopole magnetic vectors getting aligned locally creating distorted field energy probabilistically to originate Hod-PDP circuit assembly within “superfluid” like Superluminal Plenum Turbulent Magnetic Quagmire. Application of the Algorithm General Modified Feynman Diagram has helped to rationalize well-known creation of the Standard Model particles of fermions, bosons, gluons, and quarks as the outputs of perpetual-like feedback loop circuit mechanism with this Hod-PDP-hysteresis-unparticle matrix assembly quantum systems’ mechanics. Using algorithm gaging from theoretical formalism to IT “qnbit” algorithm, simulation computer programming preliminary algorithm results show striking symmetry looking like a diffraction pattern of a perfect crystal bunched at the zero-point time on both sides of origin of a vacuum. Quantum Space Astro Event sequences that have been based on five dimensional space of consciousness, environment, state of the clocks, worldline, timeline applying to physics with hydrogen atom ”qnbit” and linking to parity, phase angle, group velocity, phase velocity, superluminality,anomalous medium, as well as prime factorization crystal geometric structures have been here explored to launch towards gage physics from theoretical preliminary results, to unify fields physics that show discontinuum dissipative process mechanism, self-wrapping to observables.
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