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Bibliographic Details
Main Authors: Banerjee, Souvik, Vos, Gideon
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2401.00890
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author Banerjee, Souvik
Vos, Gideon
author_facet Banerjee, Souvik
Vos, Gideon
contents In this work, we consider the atypical non-equilibrium state found in [1708.06328] which holographically represents a behind-the-horizon excitation in a blackhole spacetime. The special feature of this state is that it looks like an equilibrium state when probed by a class of low-energy operators. First, we retrieve this property using the uniformization mapping in the limit of large central charge, in the process we are able to derive rather than presume approximate thermal physics. Furthermore, in the large-c and high-energy limit we realize these excitations as elements of the commutant algebra of a GNS-representation of the light operator algebra. Instead of analytically continuing a mixed heavy-light Euclidean correlator to a Lorentzian correlator, we identify the Euclidean correlator as a GNS-linear form and interpret the Lorentzian correlator as a vacuum expectation value of representatives of the light operator algebra on the GNS-vacuum.
format Preprint
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institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Behind-the-horizon excitations from a single 2d CFT
Banerjee, Souvik
Vos, Gideon
High Energy Physics - Theory
In this work, we consider the atypical non-equilibrium state found in [1708.06328] which holographically represents a behind-the-horizon excitation in a blackhole spacetime. The special feature of this state is that it looks like an equilibrium state when probed by a class of low-energy operators. First, we retrieve this property using the uniformization mapping in the limit of large central charge, in the process we are able to derive rather than presume approximate thermal physics. Furthermore, in the large-c and high-energy limit we realize these excitations as elements of the commutant algebra of a GNS-representation of the light operator algebra. Instead of analytically continuing a mixed heavy-light Euclidean correlator to a Lorentzian correlator, we identify the Euclidean correlator as a GNS-linear form and interpret the Lorentzian correlator as a vacuum expectation value of representatives of the light operator algebra on the GNS-vacuum.
title Behind-the-horizon excitations from a single 2d CFT
topic High Energy Physics - Theory
url https://arxiv.org/abs/2401.00890