The Hilbert Space of Quantum Gravity Is Locally Finite-Dimensional

Creators: Bao, Ning; Carroll, Sean M.; Singh, Ashmeet

Abstract

We argue in a model-independent way that the Hilbert space of quantum gravity is locally finite-dimensional. In other words, the density operator describing the state corresponding to a small region of space, when such a notion makes sense, is defined on a finite-dimensional factor of a larger Hilbert space. Because quantum gravity potentially describes superpositions of different geometries, it is crucial that we associate Hilbert-space factors with spatial regions only on individual decohered branches of the universal wave function. We discuss some implications of this claim, including the fact that quantum-field theory cannot be a fundamental description of nature.

Additional Information

© 2017 World Scientific Publishing Company. Received 26 May 2017; Accepted 11 September 2017; Published 10 October 2017. We thank Scott Aaronson, Steven Giddings, and John Preskill for helpful discussions. This research is funded in part by the Walter Burke Institute for Theoretical Physics at Caltech, by DOE grant DE-SC0011632, and by the Foundational Questions Institute. This essay received an Honorable Mention in the 2017 Essay Competition of the Gravity Research Foundation.

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