Cosmological Inflation from the dark Universe

Abstract

The present work deals with the cosmological consequences of the variable cosmological term (a)=0 + 1 a-r + 2 a-s, where a is the scale factor of the Robertson-Walker space-time. An analysis of the parameters 1,2,r,s and α, which describes the interaction between the cosmological constant and non-relativistic matter/radiation, leads to an attractive density dm a-r and a repulsive density infl a-s. As already known from literature, an approach of the form (a)=0 + 1 a-r and the identification of the energy density of space-time expansion with the zero-point density can avoid the scale discrepancy of the cosmological constant problem and solve the missing mass problem of dark matter. Furthermore, this works demonstrates that the additional term 2 a-s solves the flatness, the horizon and the magnetic-monopole problem without a hypothetical scalar field, which avoids speculations about the origin of this field. As a consequence, the imaginary time concept from Hartle and Hawking appears naturally.