Symmetric product orbifold universality and the mirage of an emergent spacetime
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We study thermal two-point functions and four-point functions involving two heavy twisted operators and two light probes in symmetric product orbifolds. We identify cases where they are universal at large N, that is, they are only sensitive to the orbifold structure. Surprisingly, such observables mimic correlators obtained from the BTZ background, even though symmetric product orbifolds are not dual to semi-classical gravity. We discuss the interpretation of these results in light of the criteria for emergence of spacetime via Von Neumann algebras. Our analysis implies that a condition on the infinite N thermal two-point functions cannot be stringent enough to define an emergent spacetime and the concept of a sharp horizon.
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Acknowledgements: We thank Elliott Gesteau, Per Kraus, Nima Lashkari, Hong Liu, Kyriakos Papadodimas, Antony Speranza, and Erik Verlinde for helpful discussions. We also thank the organizers and participants of the Physics Sessions Initiative meetings in 2023 where the ideas of this project started; in particular, we thank Hong Liu, Thomas Hartman, and Henry Maxfield for discussions. AB thanks Tom Hartman and Edgar Shaghoulian for discussions and unpublished collaboration on topics close to this project. SB is supported in part by the National Science Foundation grant PHY-2209700 and the Mani L. Bhaumik Institute for Theoretical Physics. AC has been partially supported by STFC consolidated grants ST/T000694/1 and ST/X000664/1. WK has been partially supported by the National Science Foundation under Grant NSF PHY-2210533 and by the Simons Foundation under Grant 681267.
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1029-8479
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Science and Technology Facilities Council (ST/X000664/1)