Cosmological solutions in teleparallel F(T,B) gravity
Abstract
In this paper, we find several teleparallel F(T,B) solutions for a Robertson--Walker (TRW) cosmological spacetime. We first set and solve the F(T,B)-type field equations for a linear perfect fluid. Using similar techniques, we then find new F(T,B) solutions for non-linear perfect fluids with a weak quadratic correction term to the linear equation of state (EoS). Finally, we solve for new classes of F(T,B) solutions for a scalar field source by assuming a power-law scalar field and then an exponential scalar field in terms of the time coordinate. For flat cosmological cases (k=0 cases), we find new exact and approximate F(T,B) solutions. For non-flat cases (k= 1 cases), we only find new teleparallel F(T,B) solutions for some specific and well-defined cosmological expansion subcases. We conclude by briefly discussing the impact of these new teleparallel solutions on cosmological processes such as dark energy (DE) quintessence and phantom energy models.
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