We propose a unified physical framework—the FCC Information Resonance Theory (Layered Cosmos Model) —in which the sole fundamental entity is the Planck brick, packed in a face-centered cubic (FCC) structure. All particles, forces, and cosmological phenomena emerge from the vibrational modes and topological defects of this FCC lattice. From a single geometric invariant (64π² ≈ 631. 65), we derive the complete Standard Model mass spectrum, gauge couplings, neutrino mixing angles, quark mixing angles, dark matter density, dark energy density, and Newton's constant. Key results include: · Complete mass spectrum of all charged leptons and quarks from a single formula · Gauge group emergence: SU (3) from octahedral faces, SU (2) ×U (1) from tetrahedral faces · Weinberg angle derived as sin²θW = 3/13 · Full PMNS matrix geometrized: θ₂₃ = 42. 135°, θ₁₃ = 8. 49°, θ₁₂ = 33. 39°, δPMNS = 270° · Full CKM matrix geometrized: λ = 2/9, A = √ (2/3), ρ = 1/√40, η = (1/√8) cos (π/18) · Dark energy identified as FCC Schottky defect energy (~50. 7 meV) · Dark matter identified as core-pull mode particles at level n=8 (~9. 0 keV, predicted 4. 5 keV X-ray line) · Neutrinos as topological boundary zero-modes with m₃ ≈ 50. 7 meV · Gravity emerging from dislocation/disclination mapping to torsion/curvature · Three-generation necessity proven by group theory, topology, and crystallographic exhaustion Ten core predictions match experimental values with a mean deviation less than 0. 1%. Four exclusive falsifiable predictions are proposed with explicit thresholds. The theory acknowledges five SSS-class open boundaries: discrete-to-continuous coarse-graining, Lorentzian signature emergence, Weyl curvature from defects, macroscopic torsion decoupling, and nonlinear curvature term correspondence.
yeerbate adaerbaike (Wed,) studied this question.