Cosmological perturbations for smooth sign-switching dark energy models

Abstract

In this work, we carry out a comprehensive perturbative analysis of four cosmological models featuring a sign-switching cosmological constant. Among these, we include the well-known sCDM model, characterised by an abrupt transition from a negative to a positive cosmological constant. We also consider the L model, which exhibits a generalised ladder-step evolution, as well as the SSCDM and ECDM models, both of which undergo a smooth sign change at comparable redshifts. We solve the linear cosmological perturbation equations from the radiation-dominated era, imposing initial adiabatic conditions for matter and radiation, for modes well outside the Hubble radius in the early Universe. We analyse the behaviour of the matter density contrast, the gravitational potential, the linear growth rate, the matter power spectrum, and the fσ8 evolution . These results are contrasted with predictions from the standard model and are confronted with observational data.