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Main Authors: Chen, Hong Zhe, Myers, Robert C., Raclariu, Ana-Maria
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2308.12341
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author Chen, Hong Zhe
Myers, Robert C.
Raclariu, Ana-Maria
author_facet Chen, Hong Zhe
Myers, Robert C.
Raclariu, Ana-Maria
contents We evaluate the vacuum entanglement entropy across a cut of future null infinity for free Maxwell theory in four-dimensional Minkowski spacetime. The Weyl invariance of 4D Maxwell theory allows us to embed the Minkowski spacetime inside the Einstein static universe. The Minkowski vacuum can then be described as a thermofield double state on the (future) Milne wedges of the original and inverted Minkowski patches. We show that the soft mode contribution to entanglement entropy is due to correlations between asymptotic charges of these Milne wedges or, equivalently, nontrivial conformally soft (or edge) mode configurations at the entangling surface.
format Preprint
id arxiv_https___arxiv_org_abs_2308_12341
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Entanglement, Soft Modes, and Celestial Holography
Chen, Hong Zhe
Myers, Robert C.
Raclariu, Ana-Maria
High Energy Physics - Theory
We evaluate the vacuum entanglement entropy across a cut of future null infinity for free Maxwell theory in four-dimensional Minkowski spacetime. The Weyl invariance of 4D Maxwell theory allows us to embed the Minkowski spacetime inside the Einstein static universe. The Minkowski vacuum can then be described as a thermofield double state on the (future) Milne wedges of the original and inverted Minkowski patches. We show that the soft mode contribution to entanglement entropy is due to correlations between asymptotic charges of these Milne wedges or, equivalently, nontrivial conformally soft (or edge) mode configurations at the entangling surface.
title Entanglement, Soft Modes, and Celestial Holography
topic High Energy Physics - Theory
url https://arxiv.org/abs/2308.12341