Related papers: Quantumness near the Schwarzschild black hole based on W-state

Quantumness near the Schwarzschild black hole based on W-state

URL: http://arxiv.org/abs/2510.13666v1
Date: Tue, 14 Oct 2025 03:06:18 GMT
Title: Quantumness near the Schwarzschild black hole based on W-state
Authors: Guang-Wei Mi, Xiaofen Huang, Shao-Ming Fei, Tinggui Zhang,
Abstract summary: We investigate certain quantumness in the vicinity of the Schwarzschild black hole by utilizing the W state.<n>We conclude that the Hawking effect of the black hole not only disrupts but also enhance the quantum entanglement.<n>For systems with three physically accessible modes, the Hawking effect exerts a positive influence on quantum coherence.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We investigate certain quantumness in the vicinity of the Schwarzschild black hole by utilizing the W state. We explore the influence of the Hawking effect on the l_1-norm of quantum coherence, the first-order coherence (FOC), the concurrence-fill (CF) and the global concurrence (GC) in Schwarzschild black hole, for systems with one, two and three physically accessible modes. We conclude that the Hawking effect of the black hole not only disrupts but also enhance the quantum entanglement, while destroying the quantum coherence for systems with three physically accessible modes. For systems with one or two physically accessible modes, the Hawking effect exerts a positive influence on quantum coherence and quantum entanglement. Moreover, we study the influence of both the Hawking effect and environmental noise (AD channels) on l_1-norm of quantum coherence, FOC, CF and GC. It is demonstrated that for systems with three physically accessible modes, the Hawking effect of the black hole disrupts quantum coherence but exerts a positive influence on quantum entanglement under the AD channels.

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