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| viXra.org > High Energy Particle Physics > viXra:2504.0075 |
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High Energy Particle Physics |
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Authors: Sam Bizri
This paper extends the monadic electron framework to incorporate the Higgs mechanism, reinterpreting mass generation as a topological interaction between a single cosmic worldline and the Higgs field. We propose that particle masses arise from knot invariants (crossing number, Jones polynomial) of the worldline's configuration. The Higgs vacuum expectation value (VEV) stabilizes these knots via spontaneous symmetry breaking (SSB), explaining the lepton/quark mass hierarchy. Experimental signatures include fixed mass-ratio resonances, topological phase transitions at ~10 TeV, and Higgs decay anomalies.By embedding the Standard Model's Higgs mechanism within a topological quantum field theory (TQFT), this work bridges geometric intuition with quantum field theory, transforming abstract quantum numbers into spacetime-resilient structures.
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[v1] 2025-04-10 20:17:34
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