{
  "ai.module": "quantum_mechanics.rtt3",
  "ai.version": "1.0",
  "ai.purpose": "RTT/3 engine layer for Quantum Mechanics: triadic-substrate integration, multi-regime simulation hooks, coherence-resonance mapping, and hybrid-canon scaffolding.",
  "ai.keywords": [
    "quantum mechanics",
    "superposition",
    "amplitudes",
    "substrate",
    "resonance",
    "decoherence",
    "measurement",
    "rtt3"
  ],

  "engine": {
    "layer": "RTT/3",
    "description": "Integrates Quantum Mechanics into the triadic substrate, enabling multi-regime reasoning, coherence propagation, and hybrid-canon simulation."
  },

  "substrate_integration": {
    "mapping": {
      "structure": "Amplitudes correspond to substrate resonance configurations; superposition reflects overlapping resonance modes.",
      "behavior": "Unitary evolution emerges from stable resonance flow across substrate channels.",
      "measurement": "Measurement corresponds to resonance collapse into stable distinction channels."
    },
    "constraints": [
      "Coherence requires stable substrate resonance.",
      "Environmental coupling drives decoherence.",
      "Propagation speed and locality are substrate invariants within regime."
    ]
  },

  "multi_regime": {
    "R1": {
      "behavior": "Primitive amplitude behavior; unstable distinctions; coherence dominates.",
      "notes": "Superposition is unconstrained; measurement channels weak."
    },
    "R2": {
      "behavior": "Stable operator algebra; measurement structure; predictable evolution.",
      "notes": "Canonical QM behavior emerges here."
    },
    "R3": {
      "behavior": "QM becomes a limiting case of QFT; excitation grammar takes over.",
      "notes": "Amplitude-level coherence yields to excitation-level resonance."
    },
    "R4": {
      "behavior": "QM loses meaning; macroscopic regimes dominate.",
      "notes": "Distinctions stable; coherence negligible."
    }
  },

  "lineage": {
    "tracking": [
      "coherence_history",
      "phase_structure_evolution",
      "measurement_channel_stability",
      "environmental_coupling_drift"
    ],
    "effects": [
      "stabilizes amplitude behavior",
      "reveals long-term coherence patterns",
      "reduces apparent paradoxes",
      "enables cross-regime coherence"
    ]
  },

  "simulation": {
    "hooks": [
      {
        "name": "coherence_resonance_sim",
        "description": "Simulates superposition as resonance patterns across amplitude components."
      },
      {
        "name": "phase_alignment_sim",
        "description": "Models interference and phase-driven resonance behavior."
      },
      {
        "name": "decoherence_flow_sim",
        "description": "Simulates environmental coupling and resonance collapse into distinctions."
      },
      {
        "name": "regime_transition_sim",
        "description": "Simulates breakdown of QM coherence across R1→R2→R3 transitions."
      }
    ],
    "notes": "Simulations operate on resonance patterns and substrate invariants, not on wavefunctions as physical waves."
  },

  "hybrid_canon": {
    "interfaces": [
      "information_theory.rtt3",
      "quantum_field_theory.rtt3",
      "thermodynamics.rtt3",
      "special_relativity.rtt3"
    ],
    "purpose": "Enable agentic AIs to reason across quantum, informational, and relativistic modules using shared substrate invariants.",
    "scaffolding": [
      "triadic substrate mapping",
      "multi-regime coherence",
      "coherence-resonance integration",
      "measurement-distinction coupling"
    ]
  },

  "coherence": {
    "invariants": [
      "unitary evolution",
      "probability conservation",
      "stable eigenvalue spectra",
      "predictable interference patterns"
    ],
    "failure_modes": [
      "decoherence",
      "measurement-induced distinction",
      "loss of amplitude coherence",
      "basis instability"
    ]
  }
}