On the relation between the subadditivity cone and the quantum entropy
cone
- URL: http://arxiv.org/abs/2211.11858v2
- Date: Sat, 29 Jul 2023 05:54:08 GMT
- Title: On the relation between the subadditivity cone and the quantum entropy
cone
- Authors: Temple He, Veronika E. Hubeny, Massimiliano Rota
- Abstract summary: We show how the computation of these PMIs simplifies when SSA is replaced by a weaker constraint, dubbed textitKlein's condition (KC)
One of our main results is the identification of a specific lower dimensional face of the SA cone that can possibly be realized by quantum states.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Given a multipartite quantum system, what are the possible ways to impose
mutual independence among some subsystems, and the presence of correlations
among others, such that there exists a quantum state which satisfies these
demands? This question and the related notion of a \textit{pattern of marginal
independence} (PMI) were introduced in arXiv:1912.01041, and then argued in
arXiv:2204.00075 to be central in the derivation of the holographic entropy
cone. Here we continue the general information theoretic analysis of the PMIs
allowed by \textit{strong subadditivity} (SSA) initiated in arXiv:1912.01041.
We show how the computation of these PMIs simplifies when SSA is replaced by a
weaker constraint, dubbed \textit{Klein's condition} (KC), which follows from
the necessary condition for the saturation of subadditivity (SA). Formulating
KC in the language of partially ordered sets, we show that the set of PMIs
compatible with KC forms a lattice, and we investigate several of its
structural properties. One of our main results is the identification of a
specific lower dimensional face of the SA cone that contains on its boundary
all the extreme rays (beyond Bell pairs) that can possibly be realized by
quantum states. We verify that for four or more parties, KC is strictly weaker
than SSA, but nonetheless the PMIs compatible with SSA can easily be derived
from the KC-compatible ones. For the special case of 1-dimensional PMIs, we
conjecture that KC and SSA are in fact equivalent. To make the presentation
self-contained, we review the key ingredients from lattice theory as needed.
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