Traversable wormholes via a double trace deformation involving U ( 1 ) conserved current operators

We study the effects of conservation laws on wormholes that are made traversable by a double trace deformation. After coupling the two asymptotic boundaries of a maximally extended ( d + 1 )-dimensional black brane geometry with U ( 1 ) conserved current operators, we find that the quantum matter st...

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Bibliographic Details
Published in:Physical review. D 2024-03, Vol.109 (6), Article 066016
Main Authors: Ahn, Byoungjoon, Jahnke, Viktor, Bak, Sang-Eon, Kim, Keun-Young
Format: Article
Language:English
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Summary:We study the effects of conservation laws on wormholes that are made traversable by a double trace deformation. After coupling the two asymptotic boundaries of a maximally extended ( d + 1 )-dimensional black brane geometry with U ( 1 ) conserved current operators, we find that the quantum matter stress-energy tensor of the corresponding bulk gauge fields in the hydrodynamic limit violates the averaged null energy condition, rendering the wormhole traversable. Applying our results to axionic two-sided black hole solutions, we discuss how the wormhole opening depends on the charge diffusion constant, how this affects the amount of information that can be sent through the wormhole, and possible implications for many-body quantum teleportation protocols involving conserved current operators.
ISSN:2470-0010
2470-0029
DOI:10.1103/PhysRevD.109.066016