# Before spacetime: A proposal of a framework for multiverse quantum   cosmology based on three cosmological conjectures

**Authors:** J.L. Alonso, J.M. Carmona

arXiv: 1812.02117 · 2020-03-24

## TL;DR

This paper proposes a multiverse quantum cosmology framework based on three conjectures, suggesting the universe is part of a larger multiverse with a 'timeless big bang' origin, potentially influencing black-hole physics and quantum gravity.

## Contribution

It introduces a novel multiverse quantum cosmology model grounded in three conjectures, incorporating topological terms and a 'timeless big bang' concept to unify multiverse and quantum gravity theories.

## Key findings

- The universe is past incomplete under certain assumptions.
- The observable universe is part of a larger multiverse ensemble characterized by a topological $	heta_G$-term.
- A framework for multiverse quantum cosmology starting from a 'timeless multiverse big bang'.

## Abstract

The three cosmological conjectures to which our work refers are: the phenomenon called geodesic incompleteness, the physical gravitational $\theta_G$-term that would characterize the 1-parameter family of inequivalent vacua of quantum gravidynamics, and the hypothesis of multiversality, more specifically, a zero-energy multiverse.   The known cosmological phenomenology leads under plausible assumptions to theorems which establish that the universe is past incomplete. Here, starting from Wilczek's definition of multiverse (a larger physical structure of which the universe forms part) and that spacetime is much larger than the observable universe, in a new sense suggested by these theorems, we place the observable universe, labelled by $U_{\theta_G^{(1)}}$, within a multiverse ensemble, $\{U_{\theta_G}\}$. Its topological $\theta_G^{(1)}$-term would characterize the observable universe from the Planck epoch until the present time, and it could have physical effects in, for example, black-hole physics.   Our proposal is therefore a possible framework for a multiverse quantum cosmology, in which the temporal parameters (see figures in the main text) start from a "timeless multiverse big bang" (TLMBB), where all members of the multiverse ensemble, $\{U_{\theta_G}\}$, disappear, together with their corresponding classical spacetimes. Since quantum cosmology can be viewed as one attempt among many to face with the question of finding a gravitational quantum theory, if the TLMBB were the appropriate ground to define the physical or mathematical underlying structure of quantum cosmology, then multiversality could come to have a predictive power within our observable universe.

## Full text

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## Figures

2 figures with captions in the complete paper: https://tomesphere.com/paper/1812.02117/full.md

## References

58 references — full list in the complete paper: https://tomesphere.com/paper/1812.02117/full.md

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Source: https://tomesphere.com/paper/1812.02117