physics-processes-database/process-index.json

{
  "name": "Physics Processes Database",
  "version": "1.0.0",
  "created": "2026-01-08",
  "lastUpdated": "2026-04-30",
  "category": "physics",
  "colorScheme": "5-color",
  "description": "Physics processes visualized using the Programming Framework with 5-color scheme. Converted from HTML batch files.",
  "totalProcesses": 22,
  "subcategories": 7,
  "statistics": {
    "totalNodes": 219,
    "totalEdges": 230,
    "totalConditionals": 42,
    "totalOrGates": 42,
    "totalAndGates": 22,
    "totalGates": 64,
    "totalNotGates": 0,
    "totalLoops": 22
  },
  "subcategoryCounts": {
    "thermodynamics_statistical": 3,
    "solid_state": 3,
    "astrophysics": 3,
    "optics": 3,
    "quantum_mechanics": 3,
    "electromagnetism": 3,
    "classical_mechanics": 3
  },
  "processes": [
    {
      "id": "astrophysics-higgs-mechanism",
      "name": "Higgs Mechanism",
      "subcategory": "astrophysics",
      "subcategory_name": "Astrophysics",
      "complexity": "medium",
      "nodes": 10,
      "edges": 10,
      "orGates": 1,
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      "totalGates": 2,
      "conditionals": 1,
      "notGates": 0,
      "loops": 1,
      "domainContext": "Astrophysics",
      "description": "Higgs Mechanism Process. This particle physics process visualization demonstrates the Higgs mechanism and mass generation. The flowchart shows Higgs inputs and spontaneous symmetry breaking, Higgs mechanism methods and mass generation, Higgs mechanism operations and Higgs boson, intermediate results, and final Higgs mechanism outputs.",
      "keywords": [
        "mechanism",
        "astrophysics",
        "higgs"
      ],
      "mermaid": "graph TD\n    N1[\"Higgs Mechanism research question\"]\n    N2[\"Gauge fields and scalar field\"]\n    N3[\"Higgs potential\"]\n    N4[\"Spontaneous symmetry breaking\"]\n    N5[\"Vacuum expectation value\"]\n    N6[\"Mass terms for W/Z and fermions\"]\n    N7[\"Higgs excitation\"]\n    N8[\"Collider decay channels\"]\n    N9{\"Source-grounded check: Broken...\"}\n    N10[\"Higgs Mechanism prediction/readout\"]\n\n    N1 --> N2\n    N2 --> N3\n    N3 --> N4\n    N4 --> N5\n    N5 --> N6\n    N6 --> N7\n    N7 --> N8\n    N8 --> N9\n    N9 -->|yes| N10\n    N8 -->|refine model| N4\n\n    style N1 fill:#ff6b6b,color:#fff\n    style N2 fill:#ff6b6b,color:#fff\n    style N3 fill:#ffd43b,color:#000\n    style N4 fill:#51cf66,color:#fff\n    style N5 fill:#74c0fc,color:#fff\n    style N6 fill:#51cf66,color:#fff\n    style N7 fill:#74c0fc,color:#fff\n    style N8 fill:#b197fc,color:#fff\n    style N9 fill:#ffd43b,color:#000\n    style N10 fill:#b197fc,color:#fff",
      "_sourceJsonPath": "processes/astrophysics/astrophysics-higgs-mechanism.json",
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      },
      "metricSource": "metadata",
      "graphType": "flowchart",
      "category": "Astrophysics",
      "collections": [
        "quantum-field"
      ]
    },
    {
      "id": "astrophysics-particle-collision",
      "name": "Particle Collision",
      "subcategory": "astrophysics",
      "subcategory_name": "Astrophysics",
      "complexity": "medium",
      "nodes": 10,
      "edges": 11,
      "orGates": 2,
      "andGates": 1,
      "totalGates": 3,
      "conditionals": 2,
      "notGates": 0,
      "loops": 1,
      "domainContext": "Astrophysics",
      "description": "Particle Collision Process. This particle physics process visualization demonstrates particle collisions and high energy physics. The flowchart shows particle inputs and collision energy, particle collision methods and particle interactions, particle collision operations and collision products, intermediate results, and final particle collision outputs.",
      "keywords": [
        "astrophysics",
        "collision",
        "particle"
      ],
      "mermaid": "graph TD\n    N1[\"Particle Collision research...\"]\n    N2[\"Beam particles and energy\"]\n    N3[\"Parton distributions\"]\n    N4[\"Hard scattering matrix element\"]\n    N5[\"Parton shower/hadronization\"]\n    N6{\"Detector response\"}\n    N7[\"Event reconstruction\"]\n    N8[\"Cross-section or resonance result\"]\n    N9{\"Source-grounded check: Higgs...\"}\n    N10[\"Particle Collision...\"]\n\n    N1 --> N2\n    N2 --> N3\n    N3 --> N4\n    N4 --> N5\n    N5 --> N6\n    N6 -->|yes| N7\n    N7 --> N8\n    N8 --> N9\n    N9 -->|yes| N10\n    N8 -->|refine model| N4\n    N3 -->|symmetry| N6\n\n    style N1 fill:#ff6b6b,color:#fff\n    style N2 fill:#ff6b6b,color:#fff\n    style N3 fill:#ffd43b,color:#000\n    style N4 fill:#51cf66,color:#fff\n    style N5 fill:#51cf66,color:#fff\n    style N6 fill:#74c0fc,color:#fff\n    style N7 fill:#51cf66,color:#fff\n    style N8 fill:#b197fc,color:#fff\n    style N9 fill:#ffd43b,color:#000\n    style N10 fill:#b197fc,color:#fff",
      "_sourceJsonPath": "processes/astrophysics/astrophysics-particle-collision.json",
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      },
      "metricSource": "metadata",
      "graphType": "flowchart",
      "category": "Astrophysics",
      "collections": [
        "quantum-field"
      ]
    },
    {
      "id": "astrophysics-standard-model",
      "name": "Standard Model",
      "subcategory": "astrophysics",
      "subcategory_name": "Astrophysics",
      "complexity": "medium",
      "nodes": 10,
      "edges": 10,
      "orGates": 1,
      "andGates": 1,
      "totalGates": 2,
      "conditionals": 1,
      "notGates": 0,
      "loops": 1,
      "domainContext": "Astrophysics",
      "description": "Standard Model Process. This particle physics process visualization demonstrates the Standard Model and fundamental particles. The flowchart shows particle inputs and particle properties, Standard Model methods and gauge theory, Standard Model operations and particle interactions, intermediate results, and final Standard Model outputs.",
      "keywords": [
        "astrophysics",
        "standard",
        "model"
      ],
      "mermaid": "graph TD\n    N1[\"Standard Model research question\"]\n    N2[\"Gauge symmetries\"]\n    N3[\"Quark/lepton fields\"]\n    N4[\"Gauge boson interactions\"]\n    N5[\"Electroweak symmetry breaking\"]\n    N6[\"Mass and mixing parameters\"]\n    N7[\"Scattering/decay predictions\"]\n    N8[\"Precision-test residuals\"]\n    N9{\"Source-grounded check: A Model...\"}\n    N10[\"Standard Model prediction/readout\"]\n\n    N1 --> N2\n    N2 --> N3\n    N3 --> N4\n    N4 --> N5\n    N5 --> N6\n    N6 --> N7\n    N7 --> N8\n    N8 --> N9\n    N9 -->|yes| N10\n    N8 -->|refine model| N4\n\n    style N1 fill:#ff6b6b,color:#fff\n    style N2 fill:#ff6b6b,color:#fff\n    style N3 fill:#ffd43b,color:#000\n    style N4 fill:#51cf66,color:#fff\n    style N5 fill:#51cf66,color:#fff\n    style N6 fill:#74c0fc,color:#fff\n    style N7 fill:#b197fc,color:#fff\n    style N8 fill:#74c0fc,color:#fff\n    style N9 fill:#ffd43b,color:#000\n    style N10 fill:#b197fc,color:#fff",
      "_sourceJsonPath": "processes/astrophysics/astrophysics-standard-model.json",
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      },
      "metricSource": "metadata",
      "graphType": "flowchart",
      "category": "Astrophysics",
      "collections": [
        "quantum-field"
      ]
    },
    {
      "id": "classical_mechanics-hamiltonian-mechanics",
      "name": "Hamiltonian Mechanics",
      "subcategory": "classical_mechanics",
      "subcategory_name": "Classical Mechanics",
      "complexity": "high",
      "nodes": 12,
      "edges": 12,
      "orGates": 5,
      "andGates": 1,
      "totalGates": 6,
      "conditionals": 5,
      "notGates": 0,
      "loops": 1,
      "domainContext": "Classical Mechanics",
      "description": "Research-grade compact map of Hamiltonian mechanics as a modeling workflow connecting generalized variables, Legendre transforms, canonical equations, symmetries, conservation laws, constraints, integrability, numerical integration, observables, and predictions.",
      "keywords": [
        "Hamiltonian mechanics",
        "phase space",
        "canonical equations",
        "symplectic integration",
        "conservation laws"
      ],
      "mermaid": "graph TD\n    N1[\"Hamiltonian Mechanics research...\"]\n    N2[\"Configuration coordinates q\"]\n    N3[\"Momenta p and phase space\"]\n    N4[\"Construct Hamiltonian H(q,p,t)\"]\n    N5{\"Check constraints/symmetries\"}\n    N6[\"Hamilton equations dq/dt, dp/dt\"]\n    N7[\"Integrate phase-space trajectory\"]\n    N8{\"Monitor conserved quantities\"}\n    N9{\"Compare observables with...\"}\n    N10{\"Revise H or constraints\"}\n    N11{\"Source-grounded check...\"}\n    N12[\"Hamiltonian Mechanics...\"]\n\n    N1 --> N2\n    N2 --> N3\n    N3 --> N4\n    N4 --> N5\n    N5 -->|yes| N6\n    N6 --> N7\n    N7 --> N8\n    N8 -->|yes| N9\n    N9 -->|yes| N10\n    N10 -->|yes| N11\n    N11 -->|yes| N12\n    N10 -->|refine model| N4\n\n    style N1 fill:#ff6b6b,color:#fff\n    style N2 fill:#ff6b6b,color:#fff\n    style N3 fill:#ffd43b,color:#000\n    style N4 fill:#51cf66,color:#fff\n    style N5 fill:#74c0fc,color:#fff\n    style N6 fill:#51cf66,color:#fff\n    style N7 fill:#51cf66,color:#fff\n    style N8 fill:#74c0fc,color:#fff\n    style N9 fill:#b197fc,color:#fff\n    style N10 fill:#51cf66,color:#fff\n    style N11 fill:#ffd43b,color:#000\n    style N12 fill:#b197fc,color:#fff",
      "_sourceJsonPath": "processes/classical_mechanics/classical_mechanics-hamiltonian-mechanics.json",
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      },
      "metricSource": "metadata",
      "graphType": "flowchart",
      "category": "Classical Mechanics",
      "collections": [
        "classical",
        "thermal-statistical"
      ]
    },
    {
      "id": "classical_mechanics-lagrangian-mechanics",
      "name": "Lagrangian Mechanics",
      "subcategory": "classical_mechanics",
      "subcategory_name": "Classical Mechanics",
      "complexity": "medium",
      "nodes": 11,
      "edges": 11,
      "orGates": 2,
      "andGates": 1,
      "totalGates": 3,
      "conditionals": 2,
      "notGates": 0,
      "loops": 1,
      "domainContext": "Classical Mechanics",
      "description": "Lagrangian Mechanics Process. This classical mechanics process visualization demonstrates variational principles and generalized coordinates. The flowchart shows generalized coordinates and constraint analysis, Lagrangian methods and variational principles, variational operations and symmetry analysis, intermediate results, and final Lagrangian mechanics outputs.",
      "keywords": [
        "classical",
        "mechanics",
        "lagrangian"
      ],
      "mermaid": "graph TD\n    N1[\"Lagrangian Mechanics research...\"]\n    N2[\"Generalized coordinates\"]\n    N3[\"Kinetic and potential energy\"]\n    N4[\"Build Lagrangian L=T-V\"]\n    N5{\"Apply constraints/virtual work\"}\n    N6[\"Euler-Lagrange equations\"]\n    N7[\"Solve equations of motion\"]\n    N8[\"Identify symmetries/Noether...\"]\n    N9[\"Predict trajectory/observable\"]\n    N10{\"Source-grounded check...\"}\n    N11[\"Lagrangian Mechanics...\"]\n\n    N1 --> N2\n    N2 --> N3\n    N3 --> N4\n    N4 --> N5\n    N5 -->|yes| N6\n    N6 --> N7\n    N7 --> N8\n    N8 --> N9\n    N9 --> N10\n    N10 -->|yes| N11\n    N9 -->|refine model| N4\n\n    style N1 fill:#ff6b6b,color:#fff\n    style N2 fill:#ff6b6b,color:#fff\n    style N3 fill:#ffd43b,color:#000\n    style N4 fill:#51cf66,color:#fff\n    style N5 fill:#74c0fc,color:#fff\n    style N6 fill:#51cf66,color:#fff\n    style N7 fill:#51cf66,color:#fff\n    style N8 fill:#74c0fc,color:#fff\n    style N9 fill:#b197fc,color:#fff\n    style N10 fill:#ffd43b,color:#000\n    style N11 fill:#b197fc,color:#fff",
      "_sourceJsonPath": "processes/classical_mechanics/classical_mechanics-lagrangian-mechanics.json",
      "graphMetrics": {
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      },
      "metricSource": "metadata",
      "graphType": "flowchart",
      "category": "Classical Mechanics",
      "collections": [
        "classical"
      ]
    },
    {
      "id": "classical_mechanics-newtonian-dynamics",
      "name": "Newtonian Dynamics",
      "subcategory": "classical_mechanics",
      "subcategory_name": "Classical Mechanics",
      "complexity": "medium",
      "nodes": 11,
      "edges": 11,
      "orGates": 3,
      "andGates": 1,
      "totalGates": 4,
      "conditionals": 3,
      "notGates": 0,
      "loops": 1,
      "domainContext": "Classical Mechanics",
      "description": "Newtonian Dynamics Process. This classical mechanics process visualization demonstrates Newton's laws of motion and force analysis. The flowchart shows system definition and initial conditions, Newtonian methods and laws, dynamics operations and energy analysis, intermediate results, and final Newtonian dynamics outputs.",
      "keywords": [
        "newtonian",
        "mechanics",
        "dynamics",
        "classical"
      ],
      "mermaid": "graph TD\n    N1[\"Newtonian Dynamics research...\"]\n    N2[\"Masses, positions, velocities\"]\n    N3[\"Free-body forces\"]\n    N4{\"Choose inertial frame\"}\n    N5[\"Apply F = ma\"]\n    N6[\"Resolve components\"]\n    N7[\"Integrate acceleration\"]\n    N8{\"Check energy/momentum\"}\n    N9[\"Trajectory and forces predicted\"]\n    N10{\"Source-grounded check: Lectures...\"}\n    N11[\"Newtonian Dynamics...\"]\n\n    N1 --> N2\n    N2 --> N3\n    N3 --> N4\n    N4 -->|yes| N5\n    N5 --> N6\n    N6 --> N7\n    N7 --> N8\n    N8 -->|yes| N9\n    N9 --> N10\n    N10 -->|yes| N11\n    N9 -->|refine model| N4\n\n    style N1 fill:#ff6b6b,color:#fff\n    style N2 fill:#ff6b6b,color:#fff\n    style N3 fill:#ffd43b,color:#000\n    style N4 fill:#ffd43b,color:#000\n    style N5 fill:#51cf66,color:#fff\n    style N6 fill:#51cf66,color:#fff\n    style N7 fill:#51cf66,color:#fff\n    style N8 fill:#74c0fc,color:#fff\n    style N9 fill:#b197fc,color:#fff\n    style N10 fill:#ffd43b,color:#000\n    style N11 fill:#b197fc,color:#fff",
      "_sourceJsonPath": "processes/classical_mechanics/classical_mechanics-newtonian-dynamics.json",
      "graphMetrics": {
        "nodes": 11,
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      },
      "metricSource": "metadata",
      "graphType": "flowchart",
      "category": "Classical Mechanics",
      "collections": [
        "classical"
      ]
    },
    {
      "id": "electromagnetism-quantum-computing",
      "name": "Quantum Computing",
      "subcategory": "electromagnetism",
      "subcategory_name": "Electromagnetism",
      "complexity": "medium",
      "nodes": 9,
      "edges": 9,
      "orGates": 1,
      "andGates": 1,
      "totalGates": 2,
      "conditionals": 1,
      "notGates": 0,
      "loops": 1,
      "domainContext": "Electromagnetism",
      "description": "Quantum Computing Process. This quantum mechanics process visualization demonstrates quantum computing algorithms and qubit operations. The flowchart shows algorithm inputs and qubit initialization, quantum computing methods and gate operations, quantum computing operations and measurement, intermediate results, and final quantum computing outputs.",
      "keywords": [
        "electromagnetism",
        "quantum",
        "computing"
      ],
      "mermaid": "graph TD\n    N1[\"Quantum Computing research...\"]\n    N2[\"Qubit register\"]\n    N3[\"Initial state and circuit\"]\n    N4[\"Apply unitary gates\"]\n    N5[\"Entangle/interfere amplitudes\"]\n    N6[\"Error/decoherence correction\"]\n    N7[\"Measurement bitstrings\"]\n    N8{\"Source-grounded check: Quantum...\"}\n    N9[\"Quantum Computing...\"]\n\n    N1 --> N2\n    N2 --> N3\n    N3 --> N4\n    N4 --> N5\n    N5 --> N6\n    N6 --> N7\n    N7 --> N8\n    N8 -->|yes| N9\n    N7 -->|refine model| N4\n\n    style N1 fill:#ff6b6b,color:#fff\n    style N2 fill:#ff6b6b,color:#fff\n    style N3 fill:#ffd43b,color:#000\n    style N4 fill:#51cf66,color:#fff\n    style N5 fill:#74c0fc,color:#fff\n    style N6 fill:#51cf66,color:#fff\n    style N7 fill:#b197fc,color:#fff\n    style N8 fill:#ffd43b,color:#000\n    style N9 fill:#b197fc,color:#fff",
      "_sourceJsonPath": "processes/electromagnetism/electromagnetism-quantum-computing.json",
      "graphMetrics": {
        "nodes": 9,
        "edges": 9,
        "conditionals": 1,
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      },
      "metricSource": "metadata",
      "graphType": "flowchart",
      "category": "Electromagnetism",
      "collections": [
        "classical",
        "quantum-field"
      ]
    },
    {
      "id": "electromagnetism-quantum-entanglement",
      "name": "Quantum Entanglement",
      "subcategory": "electromagnetism",
      "subcategory_name": "Electromagnetism",
      "complexity": "medium",
      "nodes": 9,
      "edges": 9,
      "orGates": 1,
      "andGates": 1,
      "totalGates": 2,
      "conditionals": 1,
      "notGates": 0,
      "loops": 1,
      "domainContext": "Electromagnetism",
      "description": "Quantum Entanglement Process. This quantum mechanics process visualization demonstrates quantum entanglement and non-local correlations. The flowchart shows entangled inputs and Bell states, quantum entanglement methods and correlation measurements, quantum entanglement operations and quantum communication, intermediate results, and final quantum entanglement outputs.",
      "keywords": [
        "electromagnetism",
        "quantum",
        "entanglement"
      ],
      "mermaid": "graph TD\n    N1[\"Quantum Entanglement research...\"]\n    N2[\"Composite quantum system\"]\n    N3[\"Joint state vector/density matrix\"]\n    N4[\"Entangling interaction\"]\n    N5[\"Nonseparable correlations\"]\n    N6[\"Local measurements\"]\n    N7[\"Bell/entropy witness\"]\n    N8{\"Source-grounded check: On the...\"}\n    N9[\"Quantum Entanglement...\"]\n\n    N1 --> N2\n    N2 --> N3\n    N3 --> N4\n    N4 --> N5\n    N5 --> N6\n    N6 --> N7\n    N7 --> N8\n    N8 -->|yes| N9\n    N7 -->|refine model| N4\n\n    style N1 fill:#ff6b6b,color:#fff\n    style N2 fill:#ff6b6b,color:#fff\n    style N3 fill:#ffd43b,color:#000\n    style N4 fill:#51cf66,color:#fff\n    style N5 fill:#74c0fc,color:#fff\n    style N6 fill:#51cf66,color:#fff\n    style N7 fill:#b197fc,color:#fff\n    style N8 fill:#ffd43b,color:#000\n    style N9 fill:#b197fc,color:#fff",
      "_sourceJsonPath": "processes/electromagnetism/electromagnetism-quantum-entanglement.json",
      "graphMetrics": {
        "nodes": 9,
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      },
      "metricSource": "metadata",
      "graphType": "flowchart",
      "category": "Electromagnetism",
      "collections": [
        "classical",
        "quantum-field"
      ]
    },
    {
      "id": "electromagnetism-wave-function",
      "name": "Wave Function",
      "subcategory": "electromagnetism",
      "subcategory_name": "Electromagnetism",
      "complexity": "medium",
      "nodes": 9,
      "edges": 10,
      "orGates": 1,
      "andGates": 1,
      "totalGates": 2,
      "conditionals": 1,
      "notGates": 0,
      "loops": 1,
      "domainContext": "Electromagnetism",
      "description": "Wave Function Process. This quantum mechanics process visualization demonstrates wave function evolution and measurement. The flowchart shows quantum inputs and superposition states, wave function methods and probability amplitudes, wave function operations and measurement processes, intermediate results, and final wave function outputs.",
      "keywords": [
        "electromagnetism",
        "function",
        "wave"
      ],
      "mermaid": "graph TD\n    N1[\"Wave Function research question\"]\n    N2[\"Quantum state preparation\"]\n    N3[\"Hilbert space and Hamiltonian\"]\n    N4[\"Solve Schrodinger equation\"]\n    N5[\"Normalize wavefunction\"]\n    N6[\"Apply measurement operator\"]\n    N7[\"Probability distribution\"]\n    N8{\"Source-grounded check...\"}\n    N9[\"Wave Function prediction/readout\"]\n\n    N1 --> N2\n    N2 --> N3\n    N3 --> N4\n    N4 --> N5\n    N5 --> N6\n    N6 --> N7\n    N7 --> N8\n    N8 -->|yes| N9\n    N7 -->|refine model| N4\n    N3 -->|symmetry| N6\n\n    style N1 fill:#ff6b6b,color:#fff\n    style N2 fill:#ff6b6b,color:#fff\n    style N3 fill:#ffd43b,color:#000\n    style N4 fill:#51cf66,color:#fff\n    style N5 fill:#74c0fc,color:#fff\n    style N6 fill:#51cf66,color:#fff\n    style N7 fill:#b197fc,color:#fff\n    style N8 fill:#ffd43b,color:#000\n    style N9 fill:#b197fc,color:#fff",
      "_sourceJsonPath": "processes/electromagnetism/electromagnetism-wave-function.json",
      "graphMetrics": {
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      },
      "metricSource": "metadata",
      "graphType": "flowchart",
      "category": "Electromagnetism",
      "collections": [
        "classical",
        "electromagnetic-optical",
        "quantum-field"
      ]
    },
    {
      "id": "optics-geometric-optics",
      "name": "Geometric Optics",
      "subcategory": "optics",
      "subcategory_name": "Optics",
      "complexity": "medium",
      "nodes": 9,
      "edges": 10,
      "orGates": 2,
      "andGates": 1,
      "totalGates": 3,
      "conditionals": 2,
      "notGates": 0,
      "loops": 1,
      "domainContext": "Optics",
      "description": "Geometric Optics Process. This optics process visualization demonstrates geometric optics and ray tracing. The flowchart shows ray inputs and ray propagation, geometric optics methods and reflection processes, geometric optics operations and refraction processes, intermediate results, and final geometric optics outputs.",
      "keywords": [
        "geometric",
        "optics"
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      "domainContext": "Thermodynamics & Statistical Physics",
      "description": "Heat Engine Process. This thermodynamics process visualization demonstrates heat engine cycles and power generation. The flowchart shows heat inputs and working fluids, heat engine methods and thermal cycles, heat engine operations and mechanical work, intermediate results, and final heat engine outputs.",
      "keywords": [
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      "keywords": [
        "phase transition",
        "critical phenomena",
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      "subcategory_name": "Graph Type Pilots",
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      "category": "Condensed Matter",
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      "description": "Pilot state transition Mermaid visualization for process database graph-type support.",
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      "domainContext": "Phase regime",
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      "collections": [
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  "normalizedGraphMetrics": true,
  "generatedFrom": "scripts/processes/discipline_databases/normalize_graph_metrics.py"
}