The Maxwell-Cassano Equations of an Electromagnetic-nuclear Field Yields the Fermion & Hadron Architecture | Zendy

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The Maxwell-Cassano Equations of an Electromagnetic-nuclear Field Yields the Fermion & Hadron Architecture

Publication year - 2019

Publication title -

advances in theoretical and computational physics

Language(s) - English

Resource type - Journals

ISSN - 2639-0108

DOI - 10.33140/atcp.02.03.02

Subject(s) - fermion , physics , maxwell's equations , hadron , factorization , particle physics , meson , electromagnetic field , operator (biology) , mathematical physics , quantum electrodynamics , mathematics , quantum mechanics , biochemistry , chemistry , algorithm , repressor , transcription factor , gene

The Helmholtzian operator and factorization, via the Maxwell-Cassano equations yields a fermion architecture table equivalent tothat of the standard model and lead to linear transformation groups of the mesons and baryons, respectively; plus a straightforwardelementary description of quark colour based on integral indices: 1,0,1, rather than the subjective, correlative explanation using:{R,G,B;Y} indexes

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