Logic-Driven Physics: The Genetic Code as Universal Geometric Algebra

This record contains the IMRAD version of Logic-Driven Physics: A Codon-Based Reconstruction of Particle Structure and Comparison with the Standard Model. The paper develops a Monorg particle framework grounded in First-Classness (FC), using a fixed four-letter codon algebra to generate the full 64-codon candidate space and to compute structural invariants by uniform rules. These generated codons are then filtered and compared with the Standard Model at the level of quark, lepton, boson, proton, and neutron structure. The central claim is not that the Standard Model is numerically refitted by free parameters, but that a prior codon grammar derived from FC recovers a substantial part of the observed particle inventory in a rule-governed and computationally reproducible way. The comparison yields both correspondences and divergences. Among the latter are integer structural charge in place of fractional quark charge, additional codon-predicted states, and a dual neutron configuration proposed as structurally relevant to the neutron lifetime discrepancy.