What question did this study set out to answer?

The aim is to resolve the discrepancy in the capacity exponent for Weil-blocks by reassessing the observable framework.

March 30, 2026Open Access

Fibre Admissibility and Resolution of the Capacity Exponent Discrepancy

Puntos clave

The aim is to resolve the discrepancy in the capacity exponent for Weil-blocks by reassessing the observable framework.
Identification of the relevant observable in the context of the Born--Infeld constraint
Analysis of fibre properties and their organization as conjugate pairs
Numerical confirmation of the power law behavior with high precision metrics
Resolution of the capacity exponent discrepancy with new pair-level observables
Confirmation of a power law with exponent approximately 7.44
Significant reduction in slope variance with R^2 greater than 0.9999

Resumen

The O-series has established that the Weil-block capacity exponent ₄ₗ₀₂ₓ 3. 72 0. 06 falls systematically below the phenomenological target range 7. 4, 10. 6, and that this discrepancy is structural: no reweighting of block data can raise the exponent (O15, Corollary~4. 8). The present paper resolves the discrepancy by identifying a misidentification of the physically relevant observable. The non-injectivity of the projection~, established from the Born--Infeld constraint, implies that admissibility is a property of complete fibres of~, not of individual preimage configurations. In the Weil realisation of Heis₃ (Z/qZ), these fibres are organised as conjugate pairs \c, q-c\ under the exact identity ₐ-₂ = c. The pair-level observable ₏₀₈ₑ (n) = c (n) \, ₐ-₂ (n) follows a clean power law with exponent ₏₀₈ₑ = 2\, c 7. 44 0. 12, confirmed numerically with R² > 0. 9999 and a factor-of-six reduction in slope variance. This result does not modify the underlying model; it identifies the correct unit of observation.

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