{
  "schema_version": "1.0",
  "generated_at": "2026-05-12T03:27:18.533879Z",
  "type": "test",
  "count": 8,
  "entries": [
    {
      "id": "test-jj-phase1-coupled-cavity",
      "type": "test",
      "title": "Test JJ Phase 1 \u2014 Coupled-Cavity Joint 7-Vector Search",
      "status": "open",
      "project": "gwc_test_jj",
      "date_published": "2026-05-09",
      "date_updated": "2026-05-12",
      "tags": [
        "test-jj",
        "coupled-cavity",
        "fdtd",
        "joint-operator",
        "decoh",
        "fingerprint"
      ],
      "author": "Jonathan Shelton",
      "log_subtype": "experiment",
      "url": "https://prometheusresearch.tech/research/tests/test-jj-phase1-coupled-cavity.html",
      "source_markdown_url": "https://prometheusresearch.tech/research/_src/tests/test-jj-phase1-coupled-cavity.md.txt",
      "json_url": "https://prometheusresearch.tech/api/entries/test-jj-phase1-coupled-cavity.json",
      "summary_excerpt": "Test JJ Phase 1 looks for *emergent* spectral behavior when two FDTD cavities are coupled and driven slightly out of balance. The theory predicts that the seven foundational geometric expressions should *compose* when geometries couple \u2014 producing a joint fingerprint distinct from the sum of two sin..."
    },
    {
      "id": "sim-256-cubed-pulsed-cmb",
      "type": "test",
      "title": "256\u00b3 Pulsed FDTD Simulation \u2014 Universe-Birth Cascade Grid Convergence Test",
      "status": "open",
      "project": "paper_7",
      "date_published": "2026-04-11",
      "date_updated": "2026-05-12",
      "tags": [
        "256-cubed",
        "pulsed-fdtd",
        "hetzner",
        "paper-7",
        "cmb-comparison",
        "grid-convergence",
        "universe-birth"
      ],
      "author": "Jonathan Shelton",
      "log_subtype": "experiment_in_progress",
      "url": "https://prometheusresearch.tech/research/tests/sim-256-cubed-pulsed-cmb.html",
      "source_markdown_url": "https://prometheusresearch.tech/research/_src/tests/sim-256-cubed-pulsed-cmb.md.txt",
      "json_url": "https://prometheusresearch.tech/api/entries/sim-256-cubed-pulsed-cmb.json",
      "summary_excerpt": "The 256\u00b3 pulsed FDTD simulation is the grid-convergence test for Paper 7's universe-birth cascade prediction. Tests whether the framework's predicted shell perturbation amplitude (10\u207b\u2076, matching CMB observation) is grid-resolution-independent or is an artifact of the simulation discretization.\nCompu..."
    },
    {
      "id": "hpc-039-heptagonal-resonance",
      "type": "test",
      "title": "HPC-039 \u2014 Seven-Fold Cavity Uniquely Self-Resonant",
      "status": "confirmed",
      "project": "hpc_simulation_campaigns",
      "date_published": "2026-04-08",
      "date_updated": "2026-05-12",
      "tags": [
        "hpc-039",
        "heptagonal",
        "seven-fold",
        "self-resonance",
        "fdtd",
        "void-contrast",
        "biology-rotation"
      ],
      "author": "Jonathan Shelton",
      "log_subtype": "experiment_complete",
      "url": "https://prometheusresearch.tech/research/tests/hpc-039-heptagonal-resonance.html",
      "source_markdown_url": "https://prometheusresearch.tech/research/_src/tests/hpc-039-heptagonal-resonance.md.txt",
      "json_url": "https://prometheusresearch.tech/api/entries/hpc-039-heptagonal-resonance.json",
      "summary_excerpt": "HPC-039 tested rotationally symmetric cavities from {5}-fold to {15}-fold under 96\u00b3 FDTD, measuring self-resonance error and void contrast for each.\nHeadline finding: {7}-fold cavities are uniquely self-resonant at 2.7% error. All other geometries show 8% to 56% self-resonance error. The {7}-fold ca..."
    },
    {
      "id": "sim-003-v6c-cone-cascade",
      "type": "test",
      "title": "SIM-003 v6c \u2014 Two-Curve Cone Cascade With Emergent Global r",
      "status": "open",
      "project": "dimensional_cascade",
      "date_published": "2026-04-02",
      "date_updated": "2026-05-12",
      "tags": [
        "sim-003",
        "cone-cascade",
        "hetzner",
        "pockets-voids",
        "wave-reinjection",
        "global-r-emergence"
      ],
      "author": "Jonathan Shelton",
      "log_subtype": "experiment_in_progress",
      "url": "https://prometheusresearch.tech/research/tests/sim-003-v6c-cone-cascade.html",
      "source_markdown_url": "https://prometheusresearch.tech/research/_src/tests/sim-003-v6c-cone-cascade.md.txt",
      "json_url": "https://prometheusresearch.tech/api/entries/sim-003-v6c-cone-cascade.json",
      "summary_excerpt": "SIM-003 v6c is the current version of a long-running simulation attempting to *derive* the framework's foundational r = 0.5 decoherence ceiling from cone-cascade geometry, rather than impose it as a parameter.\nWhy this matters. r=0.5 governs the entire dimensional cascade \u2014 when overflow occurs, the..."
    },
    {
      "id": "hpc-032-sphere-family-archimedean",
      "type": "test",
      "title": "HPC-032 \u2014 Sphere Family / Archimedean Solids, C60 Sphere-Like With Structure",
      "status": "confirmed",
      "project": "hpc_simulation_campaigns",
      "date_published": "2026-04-01",
      "date_updated": "2026-05-12",
      "tags": [
        "hpc-032",
        "archimedean",
        "c60",
        "fullerene",
        "sphere-family",
        "uniformity",
        "icosahedron",
        "phi-squared"
      ],
      "author": "Jonathan Shelton",
      "log_subtype": "experiment_complete",
      "url": "https://prometheusresearch.tech/research/tests/hpc-032-sphere-family-archimedean.html",
      "source_markdown_url": "https://prometheusresearch.tech/research/_src/tests/hpc-032-sphere-family-archimedean.md.txt",
      "json_url": "https://prometheusresearch.tech/api/entries/hpc-032-sphere-family-archimedean.json",
      "summary_excerpt": "HPC-032 tested whether the sphere is the geometric uniformity maximum that cavities approach (conventional wisdom) or whether the icosahedral family beats it (framework prediction). Nine geometries swept under 96\u00b3 FDTD.\nHeadline finding: three geometries beat the sphere.\n\nIcosahedron: 1.04 vs sphere..."
    },
    {
      "id": "hpc-028-frequency-selectivity",
      "type": "test",
      "title": "HPC-028 \u2014 Frequency Selectivity (Broadband vs Narrowband, Q-Factor)",
      "status": "confirmed",
      "project": "hpc_simulation_campaigns",
      "date_published": "2026-03-28",
      "date_updated": "2026-05-12",
      "tags": [
        "hpc-028",
        "frequency-selectivity",
        "q-factor",
        "bicone",
        "broadband",
        "narrowband",
        "patent-data"
      ],
      "author": "Jonathan Shelton",
      "log_subtype": "experiment_complete",
      "url": "https://prometheusresearch.tech/research/tests/hpc-028-frequency-selectivity.html",
      "source_markdown_url": "https://prometheusresearch.tech/research/_src/tests/hpc-028-frequency-selectivity.md.txt",
      "json_url": "https://prometheusresearch.tech/api/entries/hpc-028-frequency-selectivity.json",
      "summary_excerpt": "HPC-028 followed up on HPC-027 by characterizing the frequency selectivity of the optimal bicone geometries. The question: is the 3,428\u00d7 concentration broadband (geometric) or narrowband (resonance-tuned)?\nHeadline finding: broadband. The optimal 35\u00b0 bicone maintains >2,000\u00d7 concentration from 200 G..."
    },
    {
      "id": "hpc-027-bicone-angular-sweep",
      "type": "test",
      "title": "HPC-027 \u2014 Bicone Angular Sweep, 35\u00b0 Optimal at 3,428\u00d7 EM Concentration",
      "status": "confirmed",
      "project": "hpc_simulation_campaigns",
      "date_published": "2026-03-27",
      "date_updated": "2026-05-12",
      "tags": [
        "hpc-027",
        "bicone",
        "fdtd",
        "96-cubed",
        "em-concentration",
        "patent-data",
        "geometric-amplification"
      ],
      "author": "Jonathan Shelton",
      "log_subtype": "experiment_complete",
      "url": "https://prometheusresearch.tech/research/tests/hpc-027-bicone-angular-sweep.html",
      "source_markdown_url": "https://prometheusresearch.tech/research/_src/tests/hpc-027-bicone-angular-sweep.md.txt",
      "json_url": "https://prometheusresearch.tech/api/entries/hpc-027-bicone-angular-sweep.json",
      "summary_excerpt": "HPC-027 swept bicone half-angles from 10\u00b0 to 60\u00b0 in 5\u00b0 steps under 96\u00b3 FDTD. The result: 35\u00b0 half-angle gives 3,428\u00d7 peak EM concentration, with the 30\u00b0\u201340\u00b0 range all giving over 2,000\u00d7.\nWhy 35\u00b0. The bicone waist is where standing-wave nodes from both cones overlap. The optimal half-angle places tho..."
    },
    {
      "id": "hpc-024-angular-deficit",
      "type": "test",
      "title": "HPC-024 \u2014 Angular Deficit Sweep Across 7 Geometries",
      "status": "confirmed",
      "project": "hpc_simulation_campaigns",
      "date_published": "2026-03-26",
      "date_updated": "2026-05-12",
      "tags": [
        "hpc-024",
        "angular-deficit",
        "fdtd",
        "sphere-control-artifact",
        "dark-matter-test"
      ],
      "author": "Jonathan Shelton",
      "log_subtype": "experiment_complete",
      "url": "https://prometheusresearch.tech/research/tests/hpc-024-angular-deficit.html",
      "source_markdown_url": "https://prometheusresearch.tech/research/_src/tests/hpc-024-angular-deficit.md.txt",
      "json_url": "https://prometheusresearch.tech/api/entries/hpc-024-angular-deficit.json",
      "summary_excerpt": "HPC-024 was an early test of the angular-deficit hypothesis: that geometric concentration in cone-like or pinch geometries should scale with the local framerate. Seven geometries swept on 64\u00b3 FDTD: bicone, cone, pyramid, double-pyramid, sphere control, hemisphere, torus.\nHeadline finding: geometries..."
    }
  ]
}