Study of parametrized dark energy models with a general non-canonical scalar field

Abstract

In this paper, we have considered various dark energy models in the framework of a non-canonical scalar field with a Lagrangian density of the form L(φ, X)=f(φ)X(XM4Pl)α -1 - V(φ), which provides the standard canonical scalar field model for α=1 and f(φ)=1. In this particular non-canonical scalar field model, we have carried out the analysis for α=2. We have then obtained cosmological solutions for constant as well as variable equation of state parameter (ωφ(z)) for dark energy. We have also performed the data analysis for three different functional forms of ωφ(z) by using the combination of SN Ia, BAO and CMB datasets. We have found that for all the choices of ωφ(z), the SN Ia + CMB/BAO dataset favors the past decelerated and recent accelerated expansion phase of the universe. Furthermore, using the combined dataset, we have observed that the reconstructed results of ωφ(z) and q(z) are almost choice independent and the resulting cosmological scenarios are in good agreement with the model (within the 1σ confidence contour). We have also derived the form of the potentials for each model and the resulting potentials are found to be a quartic potential for constant ωφ and a polynomial in φ for variable ωφ.