What question did this study set out to answer?

The aim is to provide a mathematical and geometric solution to the Hubble Tension issue in cosmology.

February 17, 2026Open Access

A Proposed Resolution of the Hubble Tension: Complete Derivation with Zero Free Parameters

Key Points

The aim is to provide a mathematical and geometric solution to the Hubble Tension issue in cosmology.
Developed Model H treating spacetime as a continuous medium.
Applied laws of continuum mechanics to derive relationships between expansions.
Used a specific geometric parameter with zero free parameters.
Calculated a local Hubble constant of 73.96 km/s/Mpc.
Achieved precision of 0.1σ matching local measurements by Riess et al.
Demonstrated the discrepancy is due to predictable geometric compression, not observational error.

Abstract

The Hubble Tension is one of the most significant crises in modern cosmology. This paper proposes a mathematical and geometric resolution using Model H, treating spacetime as a continuous medium under mechanical tension. By applying the laws of continuum mechanics, the model derives the exact relation between the primordial expansion and the local expansion. Using a single geometric parameter (= 0. 00947) and strictly zero free parameters, the theoretical calculation yields a local Hubble constant of 73. 96 km/s/Mpc. This result matches the Riess et al. (SH0ES) local measurements with a precision of 0. 1. The derivation demonstrates that the discrepancy between Planck data and local telescopes is not an observational error, but a predictable geometric compression of the local physical space.

A Proposed Resolution of the Hubble Tension: Complete Derivation with Zero Free Parameters

Key Points

Abstract

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