DYNAMICS OF BARROW HOLOGRAPHIC DARK ENERGY WITHIN SCALAR-TENSOR THEORY OF GRAVITATION
By
V. B. Raut1 and D. V. Rautkar2
1Department of Mathematics, M. M. Mahavidyalaya, Darwah, Dist. Yavatmal, Maharashtra, India - 445202.
2Department of Mathematics, PRMIT&R, Badnera-Amaravati, Maharashtra, India - 444701.
Email: drvilasraut@gmail.com1, dvrautkar@gmail.com2
(Received: October 10, 2024, In format: December 17, 2024; Revised: May 19, 2025; Accepted: June 09, 2025)
DOI: https://doi.org/10.58250/jnanabha.2025.55123
Abstract
This paper investigates the dynamical behavior of hypersurface homogeneous spacetime cosmological models within the framework of the scalar-tensor theory of gravitation formulated by Saez and Ballester (Phys. Lett. A113, 467:1986). We present two cosmological models derived from this theory by solving the field equations using: (i) constant deceleration parameter and (ii) the proportional relationship between the shear scalar σ2 and scalar expansion θ as described by Collins et al. (Gen. Rel. Grav. 12, 805-823:1980). For each model, we evaluate key dynamical parameters, including the equation of state (EoS ) parameter, the deceleration parameter, the statefinder parameter, and the total energy density parameter of dark energy. Additionally, we determine the scalar field in both models. Our findings indicate that these models describe an accelerated expansion of the universe, with theoretical results showing reasonable agreement with observational data
2020 Mathematical Sciences Classification: 83C10, 83C15, 83C56, 83C57
Keywords and Phrases: Hypersurface Homogeneous space-time; Barrow holographic dark energy; Saez-Ballester scalar- Tensor Theory of Gravitation.