通过线性映射逆求任意维绝对可分性的充分准则。

IF 20.7 1区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY

Reports on Progress in Physics Pub Date : 2025-09-29 DOI:10.1088/1361-6633/ae0cfa

Jofre Abellanet Vidal,Guillem Müller-Rigat,Grzegorz Rajchel-Mieldzioć,Anna Sanpera

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引用次数: 0

摘要

在任意全局酉变换下保持可分（即不纠缠）的量子态称为绝对可分，它们构成凸集。尽管进行了广泛的努力，但这一群体的完整特征在很大程度上仍然未知。在这项工作中，我们利用线性映射及其逆得到了任意维绝对可分性的新的充分解析条件，给出了该集合的极值点并改进了它的表征。此外，当存在多个不可比较的绝对可分性标准时，我们采用凸几何优化来改进集合的表征。我们还解决了密切相关的问题，即描述绝对PPT（正偏转置）集，它由在所有幺正变换下偏转置保持正的量子态组成。最后，我们将结果扩展到多部态。

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Sufficient criteria for absolute separability in arbitrary dimensions via linear map inverses.

Quantum states that remain separable (i.e., not entangled) under any global unitary transformation are known as absolutely separable and form a convex set. Despite extensive efforts, the complete characterization of this set remains largely unknown. In this work, we employ linear maps and their inverses to derive new sufficient analytical conditions for absolute separability in arbitrary dimensions, providing extremal points of this set and improving its characterization. Additionally, we employ convex geometry optimization to refine the characterization of the set when multiple non-comparable criteria for absolute separability are available. We also address the closely related problem of characterizing the absolute PPT (positive partial transposition) set, which consists of quantum states that remain positive under partial transposition across all unitary transformations. Finally, we extend our results to multipartite states.

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来源期刊

Reports on Progress in Physics 物理-物理：综合

CiteScore

31.90

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Reports on Progress in Physics is a highly selective journal with a mission to publish ground-breaking new research and authoritative invited reviews of the highest quality and significance across all areas of physics and related areas. Articles must be essential reading for specialists, and likely to be of broader multidisciplinary interest with the expectation for long-term scientific impact and influence on the current state and/or future direction of a field.