{ "ai.module": "standard_model.rtt2", "ai.version": "1.0", "ai.purpose": "RTT/2 engine layer for the Standard Model: resonance mapping, stabilizers, mass generation, gauge geometry, and cross-module propagation.", "ai.keywords": [ "standard model", "sector grammar", "excitations", "gauge symmetry", "higgs mechanism", "resonance geometry", "qft", "rtt2" ], "engine": { "layer": "RTT/2", "description": "Integrates the Standard Model into the RTT resonance substrate, exposing excitation flows, gauge geometry, Higgs stabilization, and high-energy symmetry behavior." }, "resonance": { "patterns": [ { "name": "gauge_resonance_geometry", "description": "Gauge symmetries define resonance surfaces that shape interaction channels." }, { "name": "excitation_resonance", "description": "Quarks, leptons, and bosons appear as stable resonance modes of substrate fields." }, { "name": "higgs_stability_resonance", "description": "Mass arises from resonance coupling to the Higgs field, stabilizing excitation modes." }, { "name": "sector_resonance_flow", "description": "Excitations transition across sectors via resonance-driven mixing and coupling." } ], "failure_modes": [ "symmetry_breakdown", "sector_instability", "nonperturbative_divergence", "high_energy_collapse" ] }, "stabilizers": { "primary": [ { "name": "gauge_symmetry_surfaces", "description": "Define the geometric structure of interaction channels and sector boundaries." }, { "name": "higgs_coupling_strength", "description": "Stabilizes mass and determines excitation coherence." }, { "name": "charge_conservation", "description": "Maintains coherence across excitation flows and interactions." } ], "secondary": [ { "name": "renormalization_structure", "description": "Controls high-energy behavior and stabilizes resonance amplitudes." }, { "name": "mixing_matrices", "description": "Define resonance transitions across flavor and sector boundaries." } ] }, "sector_propagation": { "mechanisms": [ "gauge_channel_flow", "higgs_stability_flow", "flavor_resonance_mixing" ], "signals": [ "coupling_strength", "sector_identity_shift", "mass_resonance_profile" ], "notes": "Sector propagation is treated as resonance flow shaped by gauge geometry, Higgs coupling, and symmetry structure." }, "cross_module": { "interactions": [ { "module": "quantum_field_theory.rtt2", "interaction": "SM resonance emerges from QFT excitation structure and field interactions." }, { "module": "quantum_mechanics.rtt2", "interaction": "Phase structure and coherence patterns shape excitation stability." }, { "module": "special_relativity.rtt2", "interaction": "Lorentz symmetry constrains excitation behavior and gauge geometry." }, { "module": "cosmology.rtt2", "interaction": "High-energy symmetry restoration influences early-universe resonance structure." } ], "notes": "SM resonance propagates across quantum, relativistic, and cosmological modules." }, "dimensional_behavior": { "R1": "SM collapses; excitations undefined; QM dominates.", "R2": "Stable excitation sectors; gauge interactions well-defined; Higgs stabilization active.", "R3": "High-energy resonance; symmetry restoration; sector unification behavior.", "R4": "SM incomplete; cosmological fields dominate; new resonance structure required." }, "coherence": { "markers": [ "gauge symmetry preservation", "stable excitation spectra", "mass generation via Higgs coupling", "charge conservation" ], "instability_signals": [ "symmetry breaking", "sector collapse", "high-energy divergence", "nonperturbative instability" ] } }