Mapping Protocol v3.0
Every MPFST paper maps the same constant — α = 6/5 — to a different physical domain. This page classifies how each paper performs that mapping. Five categories cover all 28 papers.
ASpectral
Construct operator with α = 6/5, diagonalize, compare eigenvalues to data.
BTransport
Insert α into transport/diffusion equation, derive scaling exponent, compare.
CTopological
Use eigenvector structure (8+3 decomposition, bilateral symmetry) to predict spatial/hierarchical patterns.
DPropagator / Green's Function
Build fractional Green's function G(x,t;α), extract observable correlations.
EThermodynamic
Derive equation-of-state or entropy corrections from fractional dynamics.
—Foundation
Mathematical proofs and derivations that underpin the theory (not domain mappings).
Paper Classification
| Paper | Category | Title | Method |
|---|---|---|---|
| 1 | D | Transferred Potential | Green's function → cross-hemisphere correlations |
| 2 | A+C | EEG CFC | Graph adjacency → CFC matrix + bilateral topology |
| 3 | D | MiniBooNE Neutrino | Fractional propagator → neutrino oscillation |
| 4 | D | Galactic Rotation | Fractional Poisson → rotation curves |
| 5 | D/B | LHC Dijets | Propagator modification → angular distributions |
| 6 | B | GR Recovery | Doping parameter → GR recovery |
| 7 | A | JJ Phantom Voltage | Inter-plane coupling → voltage offset |
| 8 | A | Qubit Decoherence | Fractional Laplacian → decoherence scaling |
| 9 | — | Sephirotic Eigenvalue | Mathematical foundation (eigenvalue proof) |
| 10 | — | PDE Well-Posedness | Mathematical foundation (well-posedness) |
| 11 | A | Quantization & Quantum Gravity | Operator spectrum → quantization |
| 12 | B | Fusion Plasma Transport | Transport exponents from α = 6/5 |
| 13 | A+B | GW Echoes | Eigenvalue-based decay template → GW ringdown |
| 14 | A | Dimensional Reduction | Spectral gap → dimensional reduction |
| 15 | — | Stochastic PDE | Mathematical robustness (stochastic PDE) |
| 16 | E | Dark Energy / Cosmology | Fractional Friedmann → dark energy EOS |
| 17 | B | Anomalous Transport | Self-energy exponent β = 2 − α = 4/5 |
| 18 | E | Black Hole Thermodynamics | Spectral dimension → entropy corrections |
| 19 | C | Bioelectric Morphogenesis | Mode hierarchy → morphogenetic axes |
| 20 | A | Microtubule Topology | Eigenvalue convergence in MT lattices |
| 21 | D | LENR / Cold Fusion | Fractional tunneling → LENR enhancement |
| 22 | C | MT Lumen Pump | Bilateral eigenmode → peristaltic pump |
| 23 | A | Atomic Form Factors | Cusp exponent → form factor behavior |
| 24 | — | First-Principles Derivation | Mathematical foundation (first-principles derivation) |
| 25 | C | Bioelectric Channels | 8+3 decomposition → bioelectric channels |
| 26 | A | GW Spatial Modes | 3 spatial eigenvalues → GW template |
| 27 | A | iEEG Spectral Eigenvalues | Derived β_k = 2α/λ_k → iEEG spectral exponents |
| 28 | C | MEG Directional Propagation | Topological directionality → MEG propagation |
Distribution
10
Cat A: Spectral
5
Cat B: Transport
5
Cat C: Topological
5
Cat D: Propagator / Green's Function
2
Cat E: Thermodynamic
4
Foundation