English

Towards bit threads in general gravitational spacetimes

High Energy Physics - Theory 2024-08-16 v3 General Relativity and Quantum Cosmology

Abstract

The concept of the generalized entanglement wedge was recently proposed by Bousso and Penington, which states that any bulk gravitational region aa possesses an associated generalized entanglement wedge E(a)aE(a)\supset a on a static Cauchy surface MM in general gravitational spacetimes, where E(a)E(a) may contain an entanglement island I(a)I(a). It suggests that the fine-grained entropy for bulk region aa is given by the generalized entropy Sgen(E(a))S_{\text{gen}}(E(a)). Motivated by this proposal, we extend the quantum bit thread description to general gravitational spacetimes, no longer limited to the AdS spacetime. By utilizing the convex optimization techniques, a dual flow description for the generalized entropy Sgen(E(a))S_{\text{gen}}(E(a)) of a bulk gravitational region aa is established on the static Cauchy surface MM, such that Sgen(E(a))S_{\text{gen}}(E(a)) is equal to the maximum flux of any flow that starts from the boundary M\partial M and ends at bulk region aa, or equivalently, the maximum number of bit threads that connect the boundary M\partial M to the bulk region aa. In addition, the nesting property of flows is also proved. Thus the basic properties of the entropy for bulk regions, i.e. the monotonicity, subadditivity, Araki-Lieb inequality and strong subadditivity, can be verified from flow perspectives by using properties of flows, such as the nesting property. Moreover, in max thread configurations, we find that there exists some lower bounds on the bulk entanglement entropy of matter fields in the region E(a)aE(a)\setminus a, particularly on an entanglement island region I(a)(E(a)a)I(a) \subset (E(a)\setminus a), as required by the existence of a nontrivial generalized entanglement wedge. Our quantum bit thread formulation may provide a way to investigate more fine-grained entanglement structures in general spacetimes.

Cite

@article{arxiv.2406.04092,
  title  = {Towards bit threads in general gravitational spacetimes},
  author = {Dong-Hui Du and Jia-Rui Sun},
  journal= {arXiv preprint arXiv:2406.04092},
  year   = {2024}
}

Comments

32 pages, 4 figures; improvements to presentation; Figure 2 and Footnote 10 are added; published version in JHEP

R2 v1 2026-06-28T16:55:54.648Z