Matter density perturbation and power spectrum in running vacuum model

Abstract

We investigate the matter density perturbation δm and power spectrum P(k) in the running vacuum model (RVM) with the cosmological constant being a function of the Hubble parameter, given by = 0 + 6 σ H H0+ 3 H2, in which the linear and quadratic terms of H would originate from the QCD vacuum condensation and cosmological renormalization group, respectively. Taking the dark energy perturbation into consideration, we derive the evolution equation for δm and find a specific scale dcr=2 π/kcr, which divides the evolution of the universe into the sub and super-interaction regimes, corresponding to k kcr and k kcr, respectively. For the former, the evolution of δm has the same behavior as that in the model, while for the latter, the growth of δm is frozen (greatly enhanced) when + σ >(<)0 due to the couplings between radiation, matter and dark energy. It is clear that the observational data rule out the cases with <0 and + σ <0, while the allowed window for the model parameters is extremely narrow with , |σ| O(10-7).