作为全息状态的连接体

IF 2.9 3区 物理与天体物理 Q2 PHYSICS, PARTICLES & FIELDS Nuclear Physics B Pub Date : 2025-01-01 Epub Date: 2024-11-26 DOI:10.1016/j.nuclphysb.2024.116757
Dmitry Melnikov
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引用次数: 0

摘要

利用chen - simons理论中拓扑量子场论对状态的描述,讨论了时空连通性与纠缠的关系,探索了范式纠缠=拓扑。我们在chen - simons中定义了一类特殊的具有类似于全息态性质的态。虽然全息态是经典几何的对偶,但这些连接体态代表经典拓扑,它们满足Ryu-Takayanagi公式的离散模拟和纠缠熵的特征不等式。一般态是连接体的线性组合,该理论还具有非摄动态,即由大量量子涨落形成的全局时空缺陷。量子态的拓扑表示和纠缠拓扑的出现可能有助于建立对几何的推广,即量子引力。考虑到进一步的量子引力比较,我们讨论了复制虫洞,并得出结论,在引力理论之外存在类似的物体。从拓扑理论的角度来看,所有虫洞的总和总是可因式分解的,即使单个虫洞可能不是。
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Connectomes as holographic states
We use the topological quantum field theory description of states in Chern-Simons theory to discuss the relation between spacetime connectivity and entanglement, exploring the paradigm entanglement=topology. We define a special class of states in Chern-Simons with properties similar to those of holographic states. While the holographic states are dual to classical geometries, these connectome states represent classical topologies, which satisfy a discrete analog of the Ryu-Takayanagi formula and characteristic inequalities for the entanglement entropy. Generic states are linear combinations of connectomes, and the theory also has nonperturbative states which are global spacetime defects formed by a large number of quantum fluctuations. Topological presentation of quantum states and emergence of topology from entanglement may be useful for building a generalization to geometry, that is quantum gravity. Thinking of further quantum gravity comparisons we discuss replica wormholes and conclude that similar objects exist beyond gravitational theories. The topological theory perspective suggests that the sum over all wormholes is always factorizable, even though the individual ones might not be.
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来源期刊
Nuclear Physics B
Nuclear Physics B 物理-物理:粒子与场物理
CiteScore
5.50
自引率
7.10%
发文量
302
审稿时长
1 months
期刊介绍: Nuclear Physics B focuses on the domain of high energy physics, quantum field theory, statistical systems, and mathematical physics, and includes four main sections: high energy physics - phenomenology, high energy physics - theory, high energy physics - experiment, and quantum field theory, statistical systems, and mathematical physics. The emphasis is on original research papers (Frontiers Articles or Full Length Articles), but Review Articles are also welcome.
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