Related papers: Quantum gravity with dynamical wave-function collapse via a classical scalar field

Quantum gravity with dynamical wave-function collapse via a classical scalar field

URL: http://arxiv.org/abs/2402.17024v1
Date: Mon, 26 Feb 2024 21:07:05 GMT
Title: Quantum gravity with dynamical wave-function collapse via a classical scalar field
Authors: Zachary Weller-Davies
Abstract summary: In hybrid classical-quantum theories, the dynamics of the classical system induce classicality of the quantum system. This work introduces a classical-quantum model whereby quantum gravity interacts with a classical scalar field.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In hybrid classical-quantum theories, the dynamics of the classical system induce the classicality of the quantum system, meaning that such models do not necessarily require a measurement postulate to describe probabilistic measurement outcomes. It has recently been shown that covariant classical-quantum dynamics can be constructed using path integral methods, with the dynamics encoded in a combined action for the classical and quantum variables. This work introduces a classical-quantum model whereby quantum gravity interacts with a classical scalar field. The scalar field can be viewed as fundamentally classical or effectively classical due to the decoherence of a quantum gravity theory. The dynamics act to collapse quantum spacetimes according to their Ricci scalar, with corresponding diffusion in the scalar field due to the quantum back-reaction. In the classical limit, the diffusion in the scalar field manifests itself via stochastic fluctuations in the Newtonian potential. Because we couple a classical scalar field to perturbative quantum gravity, we find the theory is not renormalizable but is instead to be viewed as an effective field theory. However, it is an effective field theory that does not necessarily require a measurement postulate. More generally, our work shows it is possible to integrate collapse dynamics with high-energy physics and covariance.

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