Mapping the Chevallier-Polarski-Linder parametrization onto Physical Dark Energy Models

Abstract

We examine the Chevallier-Polarski-Linder (CPL) parametrization, in the context of quintessence and barotropic dark energy models, to determine the subset of such models to which it can provide a good fit. The CPL parametrization gives the equation of state parameter w for the dark energy as a linear function of the scale factor a, namely w = w0 + wa(1-a). In the case of quintessence models, we find that over most of the w0, wa parameter space the CPL parametrization maps onto a fairly narrow form of behavior for the potential V(φ), while a one-dimensional subset of parameter space, for which wa = (1+w0), with constant, corresponds to a wide range of functional forms for V(φ). For barotropic models, we show that the functional dependence of the pressure on the density, up to a multiplicative constant, depends only on wi = wa + w0 and not on w0 and wa separately. Our results suggest that the CPL parametrization may not be optimal for testing either type of model.