Advantages and disadvantages of maximally entangled states in dilaton black hole background

• URL: http://arxiv.org/abs/2512.17535v1
• Date: Fri, 19 Dec 2025 13:00:10 GMT
• Title: Advantages and disadvantages of maximally entangled states in dilaton black hole background
• Authors: Zhen Yang, He Cheng, Si-Han Li,
• Abstract summary: We investigate quantum entanglement and coherence for four classes of Bell-like fermionic states in the vicinity of a dilaton black hole.<n>Our results show that their entanglement can be lower than that of suitably chosen non-maximally entangled states in this curved spacetime background.
• Score: 8.119478732365227
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: We investigate quantum entanglement and coherence for four classes of Bell-like fermionic states in the vicinity of the event horizon of a Garfinkle-Horowitz-Strominger (GHS) dilaton black hole. Contrary to the common expectation that maximally entangled states always provide superior quantum resources, our results show that their entanglement can be lower than that of suitably chosen non-maximally entangled states in this curved spacetime background. This reveals that non-maximally entangled states may offer operational advantages for entanglement-based tasks under gravitational effects. In contrast, quantum coherence exhibits monotonic behavior: larger initial coherence leads to systematically enhanced robustness against the dilaton induced degradation. These results indicate that the optimal choice of initial quantum states depends sensitively on the specific quantum resource, either quantum entanglement or quantum coherence, required for quantum information processing near a dilaton black hole.

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