EW-1: Conscious Point Physics: The Electroweak Sector (Introductory Overview)

Abstract: EW-1 introduces the electroweak sector derivation in Conscious Point Physics from four discrete primitives embedded in the 600-cell lattice, without fundamental gauge fields, a fundamental Higgs mechanism, or a vacuum expectation value. Three electroweak bosons emerge as composite hybrid dipole pair structures on 600-cell subgraphs: a six-hDP bracelet for the W with a CPP-specific neutral W⁰ that acquires charge in collisions, a 12-vertex icosahedral loop for the Z, and a 20-vertex dodecahedral shell for the Higgs-like resonance. Boson masses arise from SS-Vector compression energy scaled by a holographic dilution calibration constant. The Weinberg angle sin^2 theta_W ≈ 0.231 emerges from four-layer phase interference with golden-ratio probability weights, while the coupling constants g and g' are reproduced but not yet derived from vertex counting alone. All masses match PDG 2026 within experimental uncertainties using two shared parameters fixed from independent sectors.