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This work addresses the discrepancy in Hubble constant measurements by proposing a modified cosmological expansion model.

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May 14, 2026Open Access

Structure-Dependent Cosmological Expansion as a Possible Resolution of the Hubble Tension

Key Points

This work addresses the discrepancy in Hubble constant measurements by proposing a modified cosmological expansion model.
Introduced a model where the Hubble parameter is influenced by both global energy density and large-scale structure amplitude.
Developed a structure-dependent correction term related to the variance of density fluctuations.
Performed numerical analysis to evaluate the model's effects on Hubble tension.
The proposed model reduced the observed Hubble tension.
The model maintains standard cosmological behavior at high redshift.
Predicts a correlation between local density environments and the Hubble parameter.

Abstract

The discrepancy between early- and late-time measurements of the Hubble constant remains one of the central unresolved problems in cosmology. In this work, we propose a phenomenological extension of the standard expansion model in which the Hubble parameter depends not only on the global energy density but also on the amplitude of large-scale structure. We introduce a structure-dependent correction term proportional to the variance of density fluctuations. Using a simplified numerical analysis, we demonstrate that this model can reduce the Hubble tension while preserving standard cosmological behavior at high redshift. The model predicts a measurable correlation between local density environments and the inferred Hubble parameter.

Structure-Dependent Cosmological Expansion as a Possible Resolution of the Hubble Tension

Key Points

Abstract

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