Optimization of entanglement depends on whether a black hole is extremal

IF 2.1 4区物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS

General Relativity and Gravitation Pub Date : 2024-06-04 DOI:10.1007/s10714-024-03259-z

Subhajit Barman, Bibhas Ranjan Majhi

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Abstract

We consider two Unruh-DeWitt detectors interacting with a massless, minimally coupled scalar field in a \((1+1)\) dimensional Reissner-Nordström black hole spacetime. In particular, one of the detectors, corresponding to Alice, is moving along an outgoing null trajectory. While the other detector carried by Bob is static. With this set-up, we investigate the entangling condition and the measure of the entanglement, concurrence, in the nonextremal and extremal scenarios. Our observations suggest, as expected, a qualitative similarity in characteristics of the entanglement between these two scenarios. However, we find quantitative differences between the nonextremal and extremal concurrences for a broad range of black hole charges. With moderately large detector transition energy, the extremal background always accounts for the larger entanglement than the nonextremal one. In contrast, with low detector transition energy, entanglement on the nonextremal background can be greater. Therefore, by adjusting the detector transition energy, one can perceive optimum entanglement from either the extremal or the nonextremal background.

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纠缠的优化取决于黑洞是否极值

我们考虑了在（(1+1)\）维赖斯纳-诺德斯特伦黑洞时空中与一个无质量、最小耦合标量场相互作用的两个恩鲁-德威特（Unruh-DeWitt）探测器。其中，与爱丽丝相对应的一个探测器正沿着一条向外的空轨迹运动。而鲍勃携带的另一个探测器是静止的。通过这种设置，我们研究了非极端和极端情况下的纠缠条件和纠缠度量--一致性。我们的观察结果表明，正如预期的那样，这两种情况下的纠缠在质量上具有相似性。然而，我们发现在广泛的黑洞电荷范围内，非极端和极端并发在量上存在差异。在探测器跃迁能量适中的情况下，极值背景总是比非极值背景产生更大的纠缠。相反，探测器转换能量较低时，非极端背景上的纠缠可能更大。因此，通过调整探测器的转换能量，人们可以从极值背景或非极值背景中感知到最佳纠缠。

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来源期刊

General Relativity and Gravitation 物理-天文与天体物理

CiteScore

4.60

自引率

3.60%

发文量

136

审稿时长

3 months

期刊介绍： General Relativity and Gravitation is a journal devoted to all aspects of modern gravitational science, and published under the auspices of the International Society on General Relativity and Gravitation. It welcomes in particular original articles on the following topics of current research: Analytical general relativity, including its interface with geometrical analysis Numerical relativity Theoretical and observational cosmology Relativistic astrophysics Gravitational waves: data analysis, astrophysical sources and detector science Extensions of general relativity Supergravity Gravitational aspects of string theory and its extensions Quantum gravity: canonical approaches, in particular loop quantum gravity, and path integral approaches, in particular spin foams, Regge calculus and dynamical triangulations Quantum field theory in curved spacetime Non-commutative geometry and gravitation Experimental gravity, in particular tests of general relativity The journal publishes articles on all theoretical and experimental aspects of modern general relativity and gravitation, as well as book reviews and historical articles of special interest.