Research PaperNo Access

Quantum Physics and Magnetism Team, LPMC, Faculty of Science Ben M’sik, Casablanca Hassan II University, Morocco

https://orcid.org/0000-0003-4545-1975

Department of Mathematics, S. P. M. Science and Gilani Arts Commerce College, Ghatanji, Dist. Yavatmal, Maharashtra 445301, India

E-mail Address: da_salim@rediff.com

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M. Bennai

https://orcid.org/0000-0002-7364-5171

Quantum Physics and Magnetism Team, LPMC, Faculty of Science Ben M’sik, Casablanca Hassan II University, Morocco

Lab of High Energy Physics, Modeling and Simulations, Faculty of Science, University Mohammed V-Agdal, Rabat, Morocco

E-mail Address: mdbennai@yahoo.fr

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, and

N. Myrzakulov

https://orcid.org/0000-0001-8691-9939

L. N. Gumilyov Eurasian National University, Astana 010008, Kazakhstan

E-mail Address: nmyrzakulov@gmail.com

Corresponding author.

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https://doi.org/10.1142/S0217732324500238Cited by:7 (Source: Crossref)

Abstract

This study investigates the dynamics of a spatially homogeneous and anisotropic LRS Bianchi type-I Universe with viscous fluid in the framework of $f (Q)$ symmetric teleparallel gravity. We assume a linear form for $f (Q)$ and introduce hypotheses regarding the relationship between the expansion and shear scalars, as well as the Hubble parameter and bulk viscous coefficient. The model is constrained using three observational datasets: the Hubble dataset (31 data points), the Pantheon SN dataset (1048 data points), and the BAO dataset (6 data points). The calculated cosmological parameters indicate expected behavior for matter-energy density and bulk viscous pressure, supporting the universe’s accelerating expansion. Diagnostic tests suggest that the model aligns with a $Λ$ CDM model in the far future and resides in the quintessence region. These findings are consistent with recent observational data and contribute to our understanding of cosmic evolution within the context of modified gravity and bulk viscosity.

Keywords:

PACS: 04.50.Kd, 66.20.-d, 98.80.Bp, 98.80.-k

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