{ "ai.module": "standard_model.rtt3", "ai.version": "1.0", "ai.purpose": "RTT/3 engine layer for the Standard Model: triadic-substrate integration, multi-regime simulation hooks, resonance topology, gauge geometry, and hybrid-canon scaffolding.", "ai.keywords": [ "standard model", "sector grammar", "excitations", "gauge symmetry", "higgs mechanism", "resonance topology", "substrate", "qft", "rtt3" ], "engine": { "layer": "RTT/3", "description": "Integrates the Standard Model into the triadic substrate, enabling multi-regime reasoning, resonance topology mapping, gauge-surface behavior, and Higgs-anchored stability." }, "substrate_integration": { "mapping": { "excitations": "Stable resonance modes of substrate fields; sectors correspond to distinct excitation topologies.", "gauge_geometry": "Interaction channels arise from symmetry-defined resonance surfaces.", "higgs_field": "Provides substrate-level anchoring for mass and stability.", "sector_topology": "High-energy behavior reshapes resonance surfaces and restores symmetry." }, "constraints": [ "Gauge symmetry defines allowable resonance flows.", "Higgs coupling determines mass and stability basins.", "Sector boundaries shift under high-energy conditions.", "Excitation coherence depends on substrate invariants." ] }, "multi_regime": { "R1": { "behavior": "SM collapses; excitations undefined; quantum behavior dominates.", "notes": "Gauge geometry and Higgs stabilization inactive." }, "R2": { "behavior": "Stable excitation sectors; gauge interactions well-defined; Higgs field active.", "notes": "Canonical Standard Model behavior." }, "R3": { "behavior": "High-energy resonance; symmetry restoration; sector unification behavior.", "notes": "Excitation surfaces merge; mass hierarchy shifts." }, "R4": { "behavior": "SM incomplete; cosmological fields dominate; new resonance structure required.", "notes": "Sector grammar insufficient; substrate-level fields take over." } }, "lineage": { "tracking": [ "sector_topology_evolution", "gauge_surface_shift", "higgs_coupling_history", "high_energy_resonance_patterns" ], "effects": [ "reveals long-term excitation stability", "identifies symmetry restoration thresholds", "predicts sector transitions", "supports cross-regime coherence" ] }, "simulation": { "hooks": [ { "name": "excitation_resonance_topology_sim", "description": "Simulates excitation modes as resonance patterns across substrate fields." }, { "name": "gauge_geometry_sim", "description": "Models gauge symmetries as resonance surfaces shaping interaction channels." }, { "name": "higgs_stability_sim", "description": "Simulates mass generation and stability basins via Higgs coupling." }, { "name": "sector_unification_sim", "description": "Simulates high-energy symmetry restoration and sector merging." }, { "name": "regime_transition_sim", "description": "Simulates Standard Model behavior across R1→R2→R3→R4 transitions." } ], "notes": "Simulations operate on substrate invariants and resonance topology, not particle metaphors." }, "hybrid_canon": { "interfaces": [ "quantum_field_theory.rtt3", "quantum_mechanics.rtt3", "special_relativity.rtt3", "cosmology.rtt3" ], "purpose": "Enable agentic AIs to reason across quantum, relativistic, and cosmological modules using shared substrate invariants.", "scaffolding": [ "resonance topology mapping", "gauge-surface geometry", "higgs-anchored stability", "multi-regime coherence" ] }, "coherence": { "invariants": [ "gauge symmetry preservation", "stable excitation spectra", "mass generation via Higgs coupling", "charge conservation" ], "failure_modes": [ "symmetry breakdown", "sector collapse", "high-energy divergence", "nonperturbative instability" ] } }