Abstract
Bringing gravity into a quantum-mechanical framework is likely the most profound remaining problem in fundamental physics. The “unitarity crisis” for black hole evolution appears to be a key facet of this problem, whose resolution will provide important clues. Investigating this raises the important structural question of how to think about subsystems and localization of information in quantum gravity. Paralleling field theory, the answer to this is expected to be an important ingredient in the mathematical structure of the theory. Perturbative gravity results indicate a structure different from that of quantum field theory, but suggest an avenue to defining subsystems. If black holes do behave similarly to familiar subsystems, unitarity demands new interactions that transfer entanglement from them. Such interactions can be parameterized in an effective approach, without directly addressing the question of the fundamental dynamics, whether that is associated with quantum spacetime, wormholes, or something else. Since such interactions need to extend outside the horizon, that raises the question of whether they can be constrained, or might be observed, by new electromagnetic or gravitational wave observations of strong gravity regions. This note overviews and provides connections between these developments.
Highlights
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Reconciling gravity with quantum principles is likely the most profound remaining theoretical problem coming into this century. This is expected to involve a description of quantum spacetime, and its resolution should provide a basic foundation for the rest of physics
The community has increasingly appreciated that reconciling black hole evolution with quantum mechanics is likely to provide a critical clue, and another important clue may be the novel structure of subsystems in the gravitational context
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. The community has increasingly appreciated that reconciling black hole evolution with quantum mechanics is likely to provide a critical clue, and another important clue may be the novel structure of subsystems in the gravitational context. If this is true, it seems that we do not yet know how string theory answers a number of central questions, such as those of defining localized observables, and describing cosmological evolution and that of black holes.
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