Phase space analysis of cosmological models on f(R,G,T) gravity

Abstract

In the present article, we developed a dynamical system in the context of modified f(R,G,T) gravity, where R, G and T are Ricci scalar, Gauss-Bonnet term and energy-momentum tensor respectively. Development of the dynamical system is done by first defining 9 dimensionless variables and formulate a ordinary differential equations by taking derivative of the variables with respect to logarithmic time N= a(t), where a(t) is the scale factor. This formulation is applied to the model f(R,G,T)=α Rl+β Gm + γ Tn , and its solutions and their corresponding stabilities are analysed in details. From the plot of density parameters vs N=-log(1+z), we conclude that our Universe is currently dominated by dark energy, which is compatible with current observation. Taking l=2, cosmic parameters such as deceleration parameter (q), equation of state (ω) and state finder parameters are also discussed by fixing one dimensionless variable, showing our Universe's expansion is accelerating with the present value of q=-0.5. Present value of ω=-0.66 suggests that our Universe is in Quintessence phase. Lastly, the validity of the model with respect to the model is checked by using 77 Hubble, 15 BAO and 1024 pantheon datasets, which implies that our model is aligned with the model's bahaviour.