Cosmic reverberations on a constrained f(Q,T) -model of the Universe

Abstract

In this paper, we construct an isotropic cosmological model in the f(Q, T) theory of gravity in the frame of a flat FLRW spacetime being Q the non-metricity tensor and T the trace of the energy-momentum tensor. The gravity function is taken to be a quadratic equation, f(Q, T)=ζ Q2 + γ T , where ζ<0 and γ are the arbitrary constants. We constrain the model parameters α and H0 using the recent observational datasets: the Hubble dataset (OHD), the Pantheon dataset of 1048 points, and the joint dataset (OHD + Pantheon ). The universe model transitions from an early deceleration state to an acceleration in late times. This model also provides the ekpyrotic phase of the universe on the redshift z>12.32 . In this model, the Big Bang is described as a collision of branes, and thus, the Big Bang is not the beginning of time. Before the Big Bang, there is an ekpyrotic phase with the equation of state ω >> 1 . In late times, the undeviating Hubble measurements reduce the H0 tension in the reconstructed f(Q, T) function. Additionally, we study various physical parameters of the model. Finally, our model describes a quintessence dark energy model at later times.

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