Salti, MustafaKorunur, MuratAcikgoz, IrfanPirinccioglu, NurettinBinbay, Figen2024-04-242024-04-2420180218-27181793-6594https://doi.org/10.1142/S0218271818500621https://hdl.handle.net/11468/17829We mainly focus on the idea that the dynamics of the whole universe may be understood by making use of torsion T and curvature R at the same time. The f(T, R)-gravity can be considered as a fundamental gravitational theory describing the evolution of the universe. The model can produce the unification of the general relativity (GR), teleparallel gravity (TPG), f(R)-gravity and f(T)-gravity theories. For this purpose, the corresponding Lagrangian density is written in terms of an arbitrary function of the torsion and curvature scalars. Furthermore, we use the absence/existence puzzle of relativistic neutron stars and thermodynamical laws as constraining tools for the new proposal.eninfo:eu-repo/semantics/closedAccessModified GravityDark EnergyNeutron StarsThermodynamicsArticle275WOS:0004293758000152-s2.0-8504514003210.1142/S0218271818500621Q1Q3