Wheeler-DeWitt Universe Wave Function in the presence of stiff matter

Abstract

We study the Wheeler-DeWitt (WDW) equation close to the Big-Bang. We argue that an interaction dominated fluid (speed of sound equal to the speed of light), if present, would dominate during such an early phase. Such a fluid with p=1/a6 generates a term in the potential of the wave function of the WDW equation proportional to -1/a2.\ This very peculiar quantum potential, which embodies a spontaneous breaking of dilatation invariance, has some very remarkable consequences for the wave function of the Universe: (a) vanishes at the Big-Bang: (0)=0; the wave function (a) is always real; a superselection rule assures that the system is confined to a≥0 without the need of imposing any additional artificial barrier for unphysical negative a. These results do not depend on the operator-ordering problem of the WDW equation.