Observational constraints in accelerated emergent f(Q) gravity model

Autor: S H Shekh, A Bouali, G Mustafa, A Pradhan, F Javed
Rok vydání: 2023
Předmět:
Zdroj: Classical and Quantum Gravity. 40:055011
ISSN: 1361-6382
0264-9381
DOI: 10.1088/1361-6382/acb631
Popis: In this study, the non-metricity scalar Q, which characterizes the gravitational interaction, is used to analyze the Universe’s rapid expansion within the context of the f(Q) gravity theory. We suggest an emergent scale factor, which produces the deceleration parameter in redshift form which determines the solution of the field equations in the FLRW Universe. We evaluate the appropriate values of the model parameters by considering SNIa from Pantheon, CMB from Planck 2018, BAO, and 36 data points from Hubble datasets using Markov Chain Monte Carlo approach. The deceleration parameter’s development suggests that the Universe is moving from its deceleration phase into its acceleration phase. Furthermore, we analyze the statefinder (r, s) diagnostic parameter. We also use some different forms of f(Q) gravity models to study some other cosmological parameters, i.e. f ( Q ) = α 1 Q , f ( Q ) = α 2 Q m and f ( Q ) = α 3 Q m + Q , where α 1, α 2, α 3 and m all are free model parameters. Finally, we concluded that all f(Q) models predict that at z = 0, Universe is in the phase of accelerating and behaves like the quintessence models and at z = − 1 , approaches to ΛCDM models.
Databáze: OpenAIRE