Creating a Universe from Nothing as an Alternative to the Cosmological Principle

Abstract

In the cosmological Robertson-Walker geometry required of the cosmological principle both the Weyl tensor Cμλ and the Bach tensor Wμ=[2∇∇λ-Rλ]Cμλ vanish. In general, in perturbations around the cosmological background neither of the fluctuating δ Cμλ or δ Wμ would vanish. However, it is possible for δ Wμ to vanish even as δ Cμλ does not. In this paper we construct an explicit model in which this is the case. The model consists of a 3-tensor gravitational wave fluctuating around a background with a constant negative 3-curvature. The model is exactly solvable and consists purely of geometric quantities with no matter fields at all (i.e., Gμ=0, δ Gμ=0, Wμ=0, δ Wμ=0, where Gμ is the Einstein tensor). The model can thus be created out of nothing, with creating a universe from nothing thus being an alternative principle to the cosmological principle. The fluctuating gravitational wave contributes to the temperature anisotropy in the cosmic microwave background and its B mode polarization in a calculable manner, one for which we provide a simple analytic way of treating spatial modes that is based on the use of a spatial mode addition theorem. In addition, we provide a treatment of the anisotropy that is based on properties of bandwidth limited functions. Classically by ``nothing" we mean that there are no Tμ or δ Tμ matter field terms. Quantum-mechanically by ``nothing" we mean that all fields other than the gravitational field are in a negative energy mode vacuum state, with the only occupied positive energy modes being graviton modes. As well as use the Bach tensor as a diagnostic, we consider dynamics based on it.