{
  "ai.module": "standard_model.simulation",
  "ai.version": "1.0",
  "ai.purpose": "Simulation entry points for Standard Model excitation sectors, gauge geometry, Higgs stabilization, and high-energy resonance behavior.",
  "ai.keywords": [
    "standard model",
    "simulation",
    "gauge symmetry",
    "higgs mechanism",
    "resonance topology",
    "sector transitions",
    "qft",
    "rtt"
  ],

  "simulation_hooks": [
    {
      "name": "excitation_resonance_topology_sim",
      "description": "Simulates excitation modes as resonance patterns across substrate fields.",
      "inputs": [
        "field_type",
        "initial_excitation_state",
        "energy_scale"
      ],
      "outputs": [
        "resonance_profile",
        "stability_surface",
        "sector_identity"
      ]
    },

    {
      "name": "gauge_geometry_sim",
      "description": "Models gauge symmetries as resonance surfaces shaping interaction channels.",
      "inputs": [
        "gauge_group",
        "coupling_strength",
        "energy_scale"
      ],
      "outputs": [
        "interaction_channel_map",
        "symmetry_surface",
        "running_coupling_profile"
      ]
    },

    {
      "name": "higgs_stability_sim",
      "description": "Simulates mass generation and stability basins via Higgs coupling.",
      "inputs": [
        "yukawa_coupling",
        "higgs_vev",
        "excitation_state"
      ],
      "outputs": [
        "mass_profile",
        "stability_basin",
        "resonance_shift"
      ]
    },

    {
      "name": "sector_transition_sim",
      "description": "Simulates transitions across excitation sectors (e.g., flavor mixing).",
      "inputs": [
        "mixing_matrix",
        "initial_sector",
        "propagation_distance",
        "energy_scale"
      ],
      "outputs": [
        "transition_probability",
        "sector_path",
        "phase_shift"
      ]
    },

    {
      "name": "high_energy_symmetry_restoration_sim",
      "description": "Simulates electroweak symmetry restoration and sector merging at high energies.",
      "inputs": [
        "temperature",
        "energy_scale",
        "higgs_potential_parameters"
      ],
      "outputs": [
        "symmetry_state",
        "merged_excitation_surfaces",
        "mass_hierarchy_shift"
      ]
    },

    {
      "name": "regime_transition_sim",
      "description": "Simulates Standard Model behavior across R1 → R2 → R3 → R4 transitions.",
      "inputs": [
        "energy_scale",
        "temperature",
        "cosmological_parameters"
      ],
      "outputs": [
        "regime_state",
        "excitation_stability",
        "symmetry_structure"
      ]
    }
  ],

  "notes": "All simulations operate on resonance topology and gauge geometry, not particle metaphors. Outputs are substrate-aligned and regime-aware."
}