Investigating the hyperbolic and hybrid scalar field cosmologies with varying cosmological constant in f(R,T) gravity

Abstract

This paper investigated two scalar field cosmological models in f(R,T) gravity with cosmic transit and varying cosmological constant (t).The cosmological constant tends to have a tiny positive value in the current epoch.The scalar field pressure pφ shows a sign reversal for a normal scalar field. For the phantom field, the scalar potential V(φ) is negative and the energy density φ=Ek+V takes negative values when the equation of state parameter ωφ is less than -1. While the weak energy condition WEC implies that the total energy density =Σii≥ 0, we still can have a negative term as long as the total is positive. In the current work we argue that the WEC, =Σi i ≥ 0 and pi+i ≥ 0, is not violated but with an instability for the second model at late-times. For a scalar field φ, The condition φ+pφ=φ (1+ωφ)=2Ek≥ 0 allows for φ<0 if ωφ<-1. The causality and energy conditions have been discussed for both models. The cosmology in both models was studied using a given function a(t) derived from the desired cosmic behavior, which is the opposite of the traditional view.