WKB Approaches to Restore Time in Quantum Cosmology: Predictions and Shortcomings

TL;DR

This review explores WKB-based methods to reintroduce time in quantum cosmology, analyzing their predictions, limitations, and potential for non-singular universe models, especially in Bianchi IX scenarios.

Contribution

It systematically examines WKB approaches at different orders, proposing new ways to construct time and addressing quantum gravity corrections in cosmological models.

Findings

First-order WKB recovers Schrödinger equation on classical background.

Non-singular Bianchi IX cosmology possible when extrapolated backwards.

Quantum gravity corrections can be incorporated via reference frame fixing.

Abstract

In this review, we analyse different aspects concerning the possibility to separate a gravity-matter system into a part which lives close to a quasi-classical state and a "small" quantum subset. The considered approaches are all relying on a WKB expansion of the dynamics by an order parameter and the natural arena consists of the Bianchi universe minisuperspace. We first discuss how, limiting the WKB expansion to the first order of approximation, it is possible to recover for the quantum subsystem a Schr\"odinger equation as written on the classical gravitational background. We give some applications for the quantum subsystem in the "corner" configuration of the Bianchi IX model, identifying the quantum variable in the small one of the two anisotropy degrees of freedom. The most surprising result is the possibility to get a non-singular Bianchi IX cosmology when the scenario is extrapolated backwards in time. We also provide some basic hints on the extension of this result to the generic cosmological solution. In the last part of the review, we consider the same scheme to the next order of approximation identifying the quantum subset as made of matter variables only. We deal with the very fundamental problem of non-unitary morphology of the quantum gravity corrections to quantum field theory discussing some proposed reformulations. Instead of constructing the time dependence via that one of the classical gravitational variables on the label time, we analyse a recent proposal to construct time by fixing a reference frame. This scheme can be reached both introducing the so-called "kinematical action", as well as by the well-known Kuchar-Torre formulation. In both cases, the Schr\"odinger equation, amended for quantum gravity corrections, has the same morphology and we provide a cosmological implementation of the model, to elucidate its possible predictions.