Observable detail · SPECTRAL
Pair-creation enhancement
| Prediction | exp(π(1 − P_0)) = 1.597 |
|---|---|
| Measured | theorem |
| Residual | 0 |
| Status | hit |
| Source paper | DCT-FND-V2 · 10.5281/zenodo.20032839 |
Mechanism
Schwinger rate ratio Γ_DCT / Γ_QED = exp(π(1 − P_0)) at the equilibrium amplitude. Exact closed form from the Euler–Heisenberg expansion.
Derivation
Schwinger rate ratio Γ_DCT / Γ_QED = exp(π(1 − P_0)) at the equilibrium amplitude. Exact closed form from the Euler–Heisenberg expansion.
The closed-form prediction is
$$ \text{predicted} = exp(π(1 − P_0)) = 1.597 $$against the measurement theorem, giving residual 0.
Python verification
The verification script for this observable is particle_physics_tests.py. Run it with python3 particle_physics_tests.py to reproduce the canonical DCT result against the public-archive measurement source listed above (Theorem.).
Methodology
| Domain | QED / Schwinger / QGB (QED) |
|---|---|
| Input data source | See "References" below for the canonical public-archive citation. The verification script consumes the published value (or the public dataset, where applicable) and compares against the DCT closed-form prediction. |
| Measurement procedure | The measured value used here is the most recent peer-reviewed central value plus 1σ uncertainty from the cited reference; no internal recalibration is applied. |
| Acceptance threshold | HIT: residual within 1σ of measurement. SOFT: directional agreement, residual within bracketing range. OPEN: untested or unresolved. |
| Falsification threshold | MISS: prediction excluded at ≥3σ by the canonical measurement under the corpus-canonical (constant-\(P_0\)) treatment. |
| Current status | See the verdict pill in the prediction table above. |
Cross-references
Related observables in the same domain: e-cr-dct.
Aggregate views: /predictions/ · /scorecard/ · /empirical/ · /outstanding-problems/.
Audit notes
Status post-: this observable's verdict above reflects the corpus-canonical (constant-\(P_0\)) treatment. Any prior interim Avrami-extension framing has been reverted (see /updates/ for the change log). The cluster-paper deep-link above (DCT-FND-V2) is the canonical source of the derivation chain.
References
- No external references for this entry — theorem or internal derivation.
- Source paper: DCT-FND-V2 · 10.5281/zenodo.20032839
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