Reconstructing the dark matter and dark energy interaction scenarios from observations

Abstract

We consider a class of interacting dark energy models in a flat and nonflat FLRW universe where the interaction is characterized by the modified evolution of the pressureless dark matter as a-3+δ (a), a being the FLRW scale factor and δ (a) quantifies the interaction rate. By assuming the most natural and nonsingular parametrization for δ (a) as δ ( a) =Σi δi (1-a)i , where δ i's (i=0,1,2,3,..) are constants, we reconstruct the expansion history of the universe for three particular choices of the DE sector using different cosmological datasets. Our analyses show that the non-interacting scenario is consistent with the observations while the interaction is not strictly ruled out. We reconstruct in the following way. We start with the first two terms of δ (a) above and constrain δ0, δ1. Then we consider up to the second order terms in δ (a) but fix δ0, δ1 to their constrained values and constrain δ2; similarly we constrain δ3, and finally we constrain (δ0, δ1, δ1, δ3) by keeping all of them to be free as a generalized case. Our reconstruction technique shows that the constraints on δ2 (fixing δ0 and δ1) and δ3 (fixing δ0, δ1 and δ2) are almost zero for any interaction model and thus the effective scenario is well described by the linear parametrization δ (a) δ0+δ 1(1-a). Additionally, a strong negative correlation between δ0, δ1 is observed independently of the dark energy fluid and the curvature of our universe.