Dynamical analysis of a hyperbolic solution in Scale-covariant theory
Abstract
We study an isotropic flat FLRW-model in Scale-covariant theory of gravity fγ δ(φ) Canuto:1977zz which is explained in terms of ordinary and covariant differentiation of scalar field φ . As we know the deceleration parameter is time-dependent, so we consider the deceleration parameter q as the function of t . Using this methodology, we find all the important cosmological factors in terms of a hyperbolic function of the cosmic time t . In turn, we create the model having the behavior of the late-time universe, which is ever accelerated expanding and faces a Big Freeze at the end. The model shows the quintessence dark energy model from early to late times. We compute the constrained values of Hubble parameter H0=70.979+0.021-0.0043 and the model parameter n=1.24079+0.00015-0.00079 using joint analysis of the OHD data of 77-points and Pantheon bin data. The model exhibits point-type singularity, beginning with a point of zero volume, infinite energy density, and temperature. Furthermore, we obtain the present deceleration parameter (q0) ≈ -0.54 . Also, we examine the ultimate behavior of our model by properly analyzing energy conditions, cosmographical parameters, and Statefinder diagnostic. Finally, the proposed model behaves like a quintessence dark energy model.
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