Realising Interactions Between Dark Matter and Dark Energy Using k-essence Cosmology

Abstract

In this paper we exploit dynamics of a k-essence scalar field to realise interactions between dark components of universe resulting in a evolution consistent with observed features of late time phase of cosmic evolution. Stress energy tensor corresponding to a k-essence Lagrangian L=V( φ)F(X) (where X=12gμ∇μφ ∇φ) is shown to be equivalent to an ideal fluid with two components having same equation of state. Stress energy tensor of one of the components may be generated from a constant potential k-essence Lagrangian of form L1=V0F(X) (V0 constant) and that of other from another Lagrangian of form L2=V1(φ)F(X) with V=V0 + V1(φ). We have shown that, the unified dynamics of dark matter and dark energy described by a single scalar field φ driven by a k-essence Lagrangian L= V(φ)F(X) may be viewed in terms of diffusive interactions between the two hypothetical fluid components `1' and `2' with stress energy tensors equivalent to that of Lagrangians L1 and L2 respectively. The energy transfer between the fluid components is determined by functions V(φ), F(X) and their derivatives. Such a realisation is shown to be consistent with the Supernova Ia data with certain constraints on the temporal behaviour of k-essence potential V(φ). We have described a methodology to obtain such constraints.