Deviation from Experiment (%)
Particle Masses
| Particle | T0 Prediction | PDG Value | Δ% |
|---|
Fundamental Constants
ONE PARAMETER → ALL OF PHYSICS
20+
Standard Model Parameters
• 6 quark masses
• 3 lepton masses
• 3 neutrino masses
• 3 CKM angles + 1 phase
• 3 gauge couplings (g₁, g₂, g₃)
• Higgs vev (v)
• Higgs quartic (λ)
• θ_QCD
• 3 PMNS angles + 1 phase
Each measured experimentally, none derived. No explanation for their values. "God's fingerprint" — unexplained.
1
T0 Theory Parameter
ξ = 4/30,000
From 3D tetrahedral sphere packing geometry. Not fitted — derived from the structure of space itself.
All particle masses, coupling constants, G, ℓ_P follow as geometric consequences. Nothing is free.
T0 IS FALSIFIABLE — HERE'S HOW
ANOMALOUS MAGNETIC MOMENTS — GEOMETRIC PREDICTION
GEOMETRIC BASIS
f = 1/ξ = 7500 (sub-Planck winding density)
keff = kgeom/Kfrak3/2 = 2.2692 (fractal-corrected projection)
S₃ = 2π² = 19.739 (3D surface of 4D torus)
kgeom = (2/√φ)·√2 = 2.224 (tetrahedral projection)
keff = kgeom/Kfrak3/2 = 2.2692 (fractal-corrected projection)
S₃ = 2π² = 19.739 (3D surface of 4D torus)
kgeom = (2/√φ)·√2 = 2.224 (tetrahedral projection)
| Lepton | Ideal (kgeom) | Corrected (keff) | Exp | Δ% | Δ%corr |
|---|
PARAMETER-FREE RATIO PREDICTION
Δa(τ−μ) / Δa(μ−e) =
= f1/3 − 1 = 75001/3 − 1 — depends only on f
BELLE II PREDICTION
aτ = 1.269 (geometric)
aτ = 1.277 (ratio method)
Decisive test — if Belle II measures aτ outside 1.2–1.3 × 10⁻³, T0 is falsified.
aτ = 1.277 (ratio method)
Decisive test — if Belle II measures aτ outside 1.2–1.3 × 10⁻³, T0 is falsified.