Compatibility between the scalar field models of tachyon, k-essence and quintessence in f(R, T) gravity

Abstract

We investigate the behavior of the scalar field in f(R, T) gravity (Harko et al., Phys. Rev. D 84, 024020, 2011) inside the structure of a flat FRW cosmological model, where R and T have their usual meaning. The deterministic solution of FEs has been settled by considering the scale factor S(t)=tmekt, where m and k are positive constant. Here we utilize three ongoing imperatives (H0=73.8 and q0=−0.73) from SNe Ia Union observation (Cunha, Phys. Rev. D 79, 047301, 2009); (H0=73.8 and q0=−0.55) from Type Ia Supernova (SNIa) observation in joined with (BAO) and (CMB) observation (Giostri et al., J. Cosmol. Astropart. Phys. 03, 027, 2012); and (H0=69.2 and q0=−0.52) from (OHD+JLA) observation (Yu et al., Astrophys. J. 856, 3, 2018). We have measured and graphed several cosmological parameters and found that these findings are appropriate in comparison with the universe’s physical and kinematic properties and also compatible with ongoing observations. The correspondence between the scalar field models of tachyon, k-essence, and quintessence is investigated by us. Our model explains the potentials and the dynamics of the scalar fields in the FRW universe. The reconstructed potential is very sensible and has a scaling arrangement. Subsequently, our study supports recent observations.