English

Genuine multi-entropy and holography

High Energy Physics - Theory 2025-07-01 v5 Quantum Physics

Abstract

Is bipartite entanglement sufficient for holography? Through the analysis of the Markov gap, it is known that the answer is no. In this paper, we give a new perspective on this issue from a different angle using a multi-entropy. We define a genuine q\mathtt{q}-partite multi-entropy from a q\mathtt{q}-partite multi-entropy by subtracting appropriate linear combinations of q~\mathtt{\tilde{q}}-partite multi-entropies for q~<q\mathtt{\tilde{q}} < \mathtt{q}, in such a way that the genuine q\mathtt{q}-partite multi-entropy vanishes for all q~\mathtt{\tilde{q}}-partite entangled states. After studying several aspects, we apply it to black holes and holography. For the application to black holes, we see that such a genuine q\mathtt{q}-partite multi-entropy is important only after the Page time. For the application to holography, we prove that non-bipartite multi-entropies are always positive and O(1/GN)\mathcal{O}\left({1/ G_N}\right), as long as boundary subregions are connected. This indicates that for holography, genuine multi-partite entanglement is not small and plays an important role.

Cite

@article{arxiv.2502.07995,
  title  = {Genuine multi-entropy and holography},
  author = {Norihiro Iizuka and Mitsuhiro Nishida},
  journal= {arXiv preprint arXiv:2502.07995},
  year   = {2025}
}

Comments

30 pages, 14 figures. v5: Added Appendix C with analysis of $\mathtt{q}$-partite information $I_{\mathtt{q}}$ in black hole evaporation, in comparison to $\mathrm{GM}^{(\mathtt{q})}$

R2 v1 2026-06-28T21:40:57.265Z