Quintessence scalar field model in Weyl-type f(Q,T) Gravity with wD-w'D analysis
Abstract
In the present study, we explore the dynamical characteristics of the quintessence cosmological model in Weyl-type f(Q,T) gravity. Here, T represents the trace of the matter energy-momentum tensor, and Q symbolizes the nonmetricity tensor. We propose a solution to the field equation using the specific parametrization in the formH(z) = H0 (1+z)1+α+β e(- β z1+z), which depicts the necessary transition of cosmos from decelerating era to the current accelerating scenario. The values of model parameters are estimated as H0 = 71.17 0.25 , α = -0.6630.030, and β = 1.4880.087 using the MCMC analysis and limiting the model with a joint dataset of Pantheon, BAO, and OHD. We discuss the cosmic behavior of many features of the derived model like EoS parameters, energy density, and cosmic pressure. Further, we have also explored the cosmological behavior of the quintessence model in Weyl f(Q,T)gravity. We have described the cosmic behavior of the model by ωD-ωD' analysis. The diagnosis of the model is also performed using state finders and jerk parameters. In the end, we have discussed the energy conditions for the proposed model. Our analysis shows that the suggested model is well consistent with the recent findings.
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