Related papers: Maximal steered coherence in the background of Schwarzschild space-time

Maximal steered coherence in the background of Schwarzschild space-time

URL: http://arxiv.org/abs/2408.12395v1
Date: Thu, 22 Aug 2024 13:40:33 GMT
Title: Maximal steered coherence in the background of Schwarzschild space-time
Authors: Ming-Ming Du, Hong-Wei Li, Shu-Ting Shen, Xiao-Jing Yan, Xi-Yun Li, Lan Zhou, Wei Zhong, Yu-Bo Sheng,
Abstract summary: We find that as the Hawking temperature increases, the physically accessible MSC degrades while the unaccessible MSC increases. Our findings illuminate the intricate dynamics of quantum information in the vicinity of black holes.
Score: 9.092982651471674
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In the past two decades, the exploration of quantumness within Schwarzschild spacetime has garnered significant interest, particularly regarding the Hawking radiation's impact on quantum correlations and quantum coherence. Building on this foundation, we investigate how Hawking radiation influences maximal steered coherence (MSC)-a crucial measure for gauging the ability to generate coherence through steering. We find that as the Hawking temperature increases, the physically accessible MSC degrade while the unaccessible MSC increase. This observation is attributed to a redistribution of the initial quantum correlations, previously acknowledged by inertial observers, across all bipartite modes. In particular, we find that in limit case that the Hawking temperature tends to infinity, the accessible MSC equals to 1/\sqrt{2} of its initial value, and the unaccessible MSC also equals to the same value. Our findings illuminate the intricate dynamics of quantum information in the vicinity of black holes, suggesting that Hawking radiation plays a pivotal role in reshaping the landscape of quantum coherence and entanglement in curved spacetime. This study not only advances our theoretical understanding of black hole thermodynamics but also opens new avenues for investigating the interface between quantum mechanics and general relativity.

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