Operational General Relativity: Possibilistic, Probabilistic, and Quantum

TL;DR

This paper develops an operational framework for General Relativity, incorporating possibilistic, probabilistic, and quantum perspectives, aiming for a diffeomorphism-invariant formulation suitable for quantum gravity research.

Contribution

It introduces an operational space based on scalar fields and formulates General Relativity as possibilistic, probabilistic, and quantum theories within a compositional framework.

Findings

Operational space built from scalar fields models observations.

Framework for possibilistic and probabilistic General Relativity.

Initial steps towards an operational quantum gravity theory.

Abstract

In this paper we develop an operational formulation of General Relativity similar in spirit to existing operational formulations of Quantum Theory. To do this we introduce an operational space (or op-space) built out of scalar fields. A point in op-space corresponds to some nominated set of scalar fields taking some given values in coincidence. We assert that op-space is the space in which we observe the world. We introduce also a notion of agency (this corresponds to the ability to set knob settings just like in Operational Quantum Theory). The effects of agents' actions should only be felt to the future so we introduce also a time direction field. Agency and time direction can be understood as effective notions. We show how to formulate General Relativity as a possibilistic theory and as a probabilistic theory. In the possibilistic case we provide a compositional framework for calculating whether some operationally described situation is possible or not. In the probabilistic version we introduce probabilities and provide a compositional framework for calculating the probability of some operationally described situation. Finally we look at the quantum case. We review the operator tensor formulation of Quantum Theory and use it to set up an approach to Quantum Field Theory that is both operational and compositional. Then we consider strategies for solving the problem of Quantum Gravity. By referring only to operational quantities we are able to provide formulations for the possibilistic, probabilistic, and (the nascent) quantum cases that are manifestly invariant under diffeomorphisms.