Information transfer with a gravitating bath

Geng, Hao; Karch, Andreas; Perez-Pardavila, Carlos; Raju, Suvrat; Randall, Lisa; Riojas, Marcos; Shashi, Sanjit

doi:10.21468/SciPostPhys.10.5.103

SciPost Physics

Information transfer with a gravitating bath

Hao Geng, Andreas Karch, Carlos Perez-Pardavila, Suvrat Raju, Lisa Randall, Marcos Riojas, Sanjit Shashi

SciPost Phys. 10, 103 (2021) · published 14 May 2021

doi: 10.21468/SciPostPhys.10.5.103
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Abstract

Late-time dominance of entanglement islands plays a critical role in addressing the information paradox for black holes in AdS coupled to an asymptotic non-gravitational bath. A natural question is how this observation can be extended to gravitational systems. To gain insight into this question, we explore how this story is modified within the context of Karch-Randall braneworlds when we allow the asymptotic bath to couple to dynamical gravity. We find that because of the inability to separate degrees of freedom by spatial location when defining the radiation region, the entanglement entropy of radiation emitted into the bath is a time-independent constant, consistent with recent work on black hole information in asymptotically flat space. If we instead consider an entanglement entropy between two sectors of a specific division of the Hilbert space, we then find non-trivial time-dependence, with the Page time a monotonically decreasing function of the brane angle---provided both branes are below a particular angle. However, the properties of the entropy depend discontinuously on this angle, which is the first example of such discontinuous behavior for an AdS brane in AdS space.

TY  - JOUR
PB  - SciPost Foundation
DO  - 10.21468/SciPostPhys.10.5.103
TI  - Information transfer with a gravitating bath
PY  - 2021/05/14
UR  - https://scipost.org/SciPostPhys.10.5.103
JF  - SciPost Physics
JA  - SciPost Phys.
VL  - 10
IS  - 5
SP  - 103
A1  - Geng, Hao
AU  - Karch, Andreas
AU  - Perez-Pardavila, Carlos
AU  - Raju, Suvrat
AU  - Randall, Lisa
AU  - Riojas, Marcos
AU  - Shashi, Sanjit
AB  - Late-time dominance of entanglement islands plays a critical role in addressing the information paradox for black holes in AdS coupled to an asymptotic non-gravitational bath. A natural question is how this observation can be extended to gravitational systems. To gain insight into this question, we explore how this story is modified within the context of Karch-Randall braneworlds when we allow the asymptotic bath to couple to dynamical gravity. We find that because of the inability to separate degrees of freedom by spatial location when defining the radiation region, the entanglement entropy of radiation emitted into the bath is a time-independent constant, consistent with recent work on black hole information in asymptotically flat space. If we instead consider an entanglement entropy between two sectors of a specific division of the Hilbert space, we then find non-trivial time-dependence, with the Page time a monotonically decreasing function of the brane angle---provided both branes are below a particular angle. However, the properties of the entropy depend discontinuously on this angle, which is the first example of such discontinuous behavior for an AdS brane in AdS space.
ER  -

@Article{10.21468/SciPostPhys.10.5.103,
	title={{Information transfer with a gravitating bath}},
	author={Hao Geng and Andreas Karch and Carlos Perez-Pardavila and Suvrat Raju and Lisa Randall and Marcos Riojas and Sanjit Shashi},
	journal={SciPost Phys.},
	volume={10},
	pages={103},
	year={2021},
	publisher={SciPost},
	doi={10.21468/SciPostPhys.10.5.103},
	url={https://scipost.org/10.21468/SciPostPhys.10.5.103},
}

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Authors / Affiliations: mappings to Contributors and Organizations

See all Organizations.

¹ Hao Geng,
¹ ² Andreas Karch,
² Carlos Perez-Pardavila,
³ Suvrat Raju,
⁴ Lisa Randall,
² Marcos Riojas,
² Sanjit Shashi

Funders for the research work leading to this publication

Department of Science and Technology, Ministry of Science and Technology (through Organization: विज्ञान एवं प्रौद्योगिकी विभाग / Department of Science and Technology [DST])
Gordon and Betty Moore Foundation
Kavli Foundation
National Science Foundation [NSF]
Simons Foundation
United States Department of Energy [DOE]