What question did this study set out to answer?

This paper aims to unify geometric expansion and optical dimming within a new framework, showing their interconnectivity in cosmology.

June 12, 2026Open Access

The Kramers-Kronig Dispersion Bridge: Unifying Amplitude Drag, Phase Velocity, and Tensor Elasticity in the Cosserat Continuum

Key Points

This paper aims to unify geometric expansion and optical dimming within a new framework, showing their interconnectivity in cosmology.
Utilized the Continuum Field Entropy framework to model the Primordial Field as a dispersive Cosserat continuum.
Analyzed 1,590 Type Ia Supernovae data with a systematic covariance matrix to validate the CFE integral.
Examined X-ray quasars to determine the Spectral Drag Index and refine theoretical predictions.
CFE framework outperformed standard Dark Energy $cdm$ with $ ext{Delta}chi^2 ext{approx} 408.9$.
Spectral Drag Index found to be $n ext{approx} 0.285$, refined to $n = 0.2836 0.0001$ under strict constraints.
Identified the CFE-Maxwell Elastic Tensor and established a rigid thermodynamic elasticity model for optical dimming.

Abstract

**Preprint | Continuum Field Entropy Empirical Validation Series** Standard CDM cosmology evaluates cosmological expansion and photon attenuation as independent phenomena, requiring Dark Energy () to balance high-redshift luminosity deficits. In this paper, we unify geometric expansion and optical dimming using the Continuum Field Entropy (CFE) framework. By modeling the Primordial Field as a dispersive Cosserat continuum, we prove that the macroscopic geometric wave speed (c₄₅₅) and the localized thermodynamic amplitude drag (₅₋ₔₗ) are inextricably linked via the Kramers-Kronig relations. We derive the Redshift-Coupled Dispersion Integral to demonstrate that high-frequency photons in the early universe face a thermodynamic “Double Penalty. ” To empirically validate this dispersive bridge, we subject the CFE integral to 1, 590 deep-space Type Ia Supernovae, utilizing the full 1701 1701 systematic covariance matrix. The CFE framework outperforms standard Dark Energy (CDM) by a massive ² 408. 9. Furthermore, by evaluating high-redshift X-ray quasars from the Lusso (2020) catalog, we independently isolate the continuum’s Spectral Drag Index at n 0. 285. When subjected to strict high-precision instrumental constraints using the Exact Kramers-Kronig Integral anchored to the primordial saturation limit (₀ = 0. 721), the primordial Spectral Index refines to n = 0. 2836 0. 0001. Finally, by dynamically testing the theoretical cube-root limit (n = 0. 36), we uncover the CFE-Maxwell Elastic Tensor: the field elastically trades Base Drag (₀ = 0. 3929) to perfectly conserve a 4. 71-magnitude X-ray attenuation penalty. This provides decisive statistical proof that deep-space optical dimming is not geometric acceleration, but the rigid thermodynamic elasticity of a relaxing vacuum. **Project Integration: **This document is a standalone validation report. The underlying universal field equations, foundational axioms, and the complete multi-disciplinary validation framework can be found in the primary master manuscript (DOI: 10. 5281/zenodo. 20631794).

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