Authors: Lucian M Ionescu
Recently, GUTs based on the exceptional Lie algebras attempt unification of interactions of the Standard Model as a gauge field theory, e.g. Garrett Lisi's E8-TOE. But the modern growing trend in quantum physics is based on the Quantum Information Processing paradigm (QIP). The present proposal will develop the Qubit Model, a QIP analog of the Quark Model within the SM framework. The natural principle that "quantum interactions should be discrete", technically meaning the reduction of the gauge group to finite subgroups of SO(3)/SU(2), implies that qubit-frames (3D-pixels), playing the role of baryons, have the Platonic symmetries as their Klein Geometry (Three generations of flavors): T,O,I, and hence their "doubles", the binary point groups are the root systems E6,7,8 of the exceptional Lie algebras, which control their Quantum Dynamics. The Qubit Model conceptually reinterprets the experimental heritage modeled into the SM, and has clear prospects of explaining the mass spectrum of elementary particles, consistent with the works of other researchers, including Mac Gregor and Palazzi regarding the quatization of mass (Elementary Particles), or Moon and Cook regarding the structure of the nucleus (Nuclear Phsyics).
Comments: 17 Pages.
[v1] 2019-12-31 10:40:31
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