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Main Authors: Kraiselburd, Lucila, Pigozzo, Cassio, Landau, Susana J., Alcaniz, Jailson
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2504.06831
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author Kraiselburd, Lucila
Pigozzo, Cassio
Landau, Susana J.
Alcaniz, Jailson
author_facet Kraiselburd, Lucila
Pigozzo, Cassio
Landau, Susana J.
Alcaniz, Jailson
contents Context. A major observational challenge within the standard cosmological framework is the Hubble tension, a statistically significant ($\sim 5σ$) disagreement between the Hubble constant derived from cosmic microwave background measurements and the value obtained through local distance-ladder methods based on Type Ia supernovae and Cepheid variable stars. Aims. We relax the assumption of the Friedmann-Lemaître-Robertson-Walker (FLRW) distance-redshift relation and explore the influence of small-scale inhomogeneities on the propagation of light from distant sources, using the Zeldovich-Kantowski-Dyer-Roeder (ZKDR) approximation as an alternative approach to address this tension. Methods. We employ two distinct formulations of the ZKDR equation to test our hypothesis using recent Type Ia supernovae datafrom the Pantheon+ compilation and the SH0ES collaboration and six gravitational lens systems from the H0LiCOW collaboration. Results. We obtained constraints on the cosmological parameters and the ZKDR model parameters within the framework of the inhomogeneous models considered. The model comparison criterion indicates that the data show weak preference of $Λ$CDM over the flat ZKDR model , whereas the remaining models studied are strongly disfavored. Conclusions. Our findings indicate that a background model characterized by the ZKDR approximation and its modifications does not solve or alleviate the Hubble tension.
format Preprint
id arxiv_https___arxiv_org_abs_2504_06831
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Hubble tension and small-scale inhomogeneities on light propagation
Kraiselburd, Lucila
Pigozzo, Cassio
Landau, Susana J.
Alcaniz, Jailson
Cosmology and Nongalactic Astrophysics
Context. A major observational challenge within the standard cosmological framework is the Hubble tension, a statistically significant ($\sim 5σ$) disagreement between the Hubble constant derived from cosmic microwave background measurements and the value obtained through local distance-ladder methods based on Type Ia supernovae and Cepheid variable stars. Aims. We relax the assumption of the Friedmann-Lemaître-Robertson-Walker (FLRW) distance-redshift relation and explore the influence of small-scale inhomogeneities on the propagation of light from distant sources, using the Zeldovich-Kantowski-Dyer-Roeder (ZKDR) approximation as an alternative approach to address this tension. Methods. We employ two distinct formulations of the ZKDR equation to test our hypothesis using recent Type Ia supernovae datafrom the Pantheon+ compilation and the SH0ES collaboration and six gravitational lens systems from the H0LiCOW collaboration. Results. We obtained constraints on the cosmological parameters and the ZKDR model parameters within the framework of the inhomogeneous models considered. The model comparison criterion indicates that the data show weak preference of $Λ$CDM over the flat ZKDR model , whereas the remaining models studied are strongly disfavored. Conclusions. Our findings indicate that a background model characterized by the ZKDR approximation and its modifications does not solve or alleviate the Hubble tension.
title Hubble tension and small-scale inhomogeneities on light propagation
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2504.06831