English

Bulk Entanglement Entropy and Matrices

High Energy Physics - Theory 2023-08-29 v2

Abstract

Motivated by the Bekenstein Hawking formula and the area law behaviour of entanglement entropy, we propose that in any UV finite theory of quantum gravity with a smooth spacetime, the total entropy for a pure state in a co-dimension one spatial region, to leading order, is given by S=A4GNS={A\over 4 G_N}, where AA is the area of the co-dimension two boundary. In the context of DpDp brane holography we show that for some specially chosen regions bulk entanglement can be mapped to ``target space" entanglement in the boundary theory. Our conjecture then leads to a precise proposal for target space entanglement in the boundary theory at strong coupling and large NN. In particular it leads to the conclusion that the target space entanglement would scale like O(N2)O(N^2) which is quite plausible in a system with O(N2)O(N^2) degrees of freedom. Recent numerical advances in studying the D0 brane system hold out the hope that this proposal can be tested in a precise way in the future.

Keywords

Cite

@article{arxiv.2004.00613,
  title  = {Bulk Entanglement Entropy and Matrices},
  author = {Sumit R. Das and Anurag Kaushal and Gautam Mandal and Sandip P. Trivedi},
  journal= {arXiv preprint arXiv:2004.00613},
  year   = {2023}
}

Comments

Submitted 11 March 2020 to the Peter Freund Memorial Volume. J Phys A

R2 v1 2026-06-23T14:35:46.376Z