Lauritz van Luijk, Alexander Stottmeister, Henrik Wilming
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引用次数: 0
摘要
纠缠的 "盗用"(Embezzlement of entanglement)是指通过局部操作从纠缠资源中提取纠缠,而不进行通信,同时对资源进行任意小的扰动。最近,有人证明了 III 型冯-诺依曼代数的双元系统存在 "侵吞 "状态。然而,在多方系统的情况下,embezzling 状态与 van Dam 和 Hayden 最初定义的 embezzling 族概念之间的确切关系却一直悬而未决。在这里,我们证明了多方贪污状态的有限维近似构成了多方贪污家族。相反,并非每个贪污家族都会收敛到贪污状态。我们确定了一个额外的一致性条件,以确保贪污家族趋同于贪污状态。这一标准将范达姆和海登的贪污家族与梁、托纳和沃特鲁斯的贪污家族区分开来。通过取一个极限,我们得到了一个多方III$_1$型共轭因子系统,在这个系统上,每个状态都是贪污状态。我们将在量子场论和量子多体物理学的背景下讨论我们的结果。作为开放性问题,我们提出在超过两个时空维度的相对论量子场虚空是否是多方侵吞态,以及多方侵吞态是否允许算子代数特性。
Embezzlement of entanglement refers to the task of extracting entanglement
from an entanglement resource via local operations and without communication
while perturbing the resource arbitrarily little. Recently, the existence of
embezzling states of bipartite systems of type III von Neumann algebras was
shown. However, both the multipartite case and the precise relation between
embezzling states and the notion of embezzling families, as originally defined
by van Dam and Hayden, was left open. Here, we show that finite-dimensional
approximations of multipartite embezzling states form multipartite embezzling
families. In contrast, not every embezzling family converges to an embezzling
state. We identify an additional consistency condition that ensures that an
embezzling family converges to an embezzling state. This criterion
distinguishes the embezzling family of van Dam and Hayden from the one by
Leung, Toner, and Watrous. The latter generalizes to the multipartite setting.
By taking a limit, we obtain a multipartite system of commuting type III$_1$
factors on which every state is an embezzling state. We discuss our results in
the context of quantum field theory and quantum many-body physics. As open
problems, we ask whether vacua of relativistic quantum fields in more than two
spacetime dimensions are multipartite embezzling states and whether
multipartite embezzlement allows for an operator-algebraic characterization.