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.
Related papers
- Second-Order Coherence as an Indicator of Quantum Entanglement of Hawking Radiation in Moving-Mirror Models [0.0]
We evaluate the second-order coherence in the context of the moving-mirror model, which serves as an analog model for Hawking radiation from a black hole.
We discuss the relation between entanglement and the second-order coherence of Hawking radiation paying attention to the noise effect due to the thermality of Hawking radiation.
arXiv Detail & Related papers (2024-07-12T12:30:20Z) - Physically Accessible and Inaccessible Quantum Correlations of Dirac Fields in Schwarzschild Spacetime [0.6749750044497732]
textitAlice and textitBob share a textitGisin state near the Schwarzschild black hole.
Hawking decoherence reduces the quantum correlations of Dirac fields in the physically accessible region.
As Hawking decoherence intensifies in the physically inaccessible and spacetime regions, the quantum correlations of Dirac fields reemerge.
arXiv Detail & Related papers (2024-07-07T22:55:13Z) - Quantum correlation of Hawking radiations for mass-superposed BTZ black holes [0.7918886297003019]
Recent studies using the Unruh-DeWitt detector model have revealed the quantum signatures of black hole mass superposition.
In this paper, we use the equal-time density-density correlation function to reinvestigate the mass superposition of BTZ black holes.
arXiv Detail & Related papers (2024-06-25T07:23:49Z) - Quantum properties of fermionic fields in multi-event horizon spacetime [0.0]
We investigate the properties of quantum entanglement and mutual information in the multi-event horizon Schwarzschild-de Sitter (SdS) spacetime for massless Dirac fields.
We obtain the expression for the evolutions of the quantum state near the black hole event horizon (BEH) and cosmological event horizon (CEH) in the SdS spacetime.
arXiv Detail & Related papers (2023-11-13T03:17:36Z) - Finite Pulse-Time Effects in Long-Baseline Quantum Clock Interferometry [45.73541813564926]
We study the interplay of the quantum center-of-mass $-$ that can become delocalized $-$ together with the internal clock transitions.
We show at the example of a Gaussian laser beam that the proposed quantum-clock interferometers are stable against perturbations from varying optical fields.
arXiv Detail & Related papers (2023-09-25T18:00:03Z) - Adiabatic Shortcuts Completion in Quantum Field Theory: Annihilation of
Created Particles [44.99833362998488]
We investigate the completion of a nonadiabatic evolution into a shortcut to adiabaticity for a quantum field confined within a one-dimensional cavity containing two movable mirrors.
We achieve a smooth extension of the Moore functions that implements the STA.
We draw attention to the existence of a comparable problem within nonrelativistic quantum mechanics.
arXiv Detail & Related papers (2023-08-25T14:19:21Z) - On Quantum Information Before the Page Time [0.0]
We show significant quantum information regarding the quantum state of the black hole prior to the Page time.
By computing the quantum fidelity in a 2D boundary conformal field theory model of black hole evaporation, we demonstrate that an observer outside of an evaporating black hole may distinguish different black holes.
arXiv Detail & Related papers (2022-12-13T19:00:00Z) - Demonstrating Quantum Microscopic Reversibility Using Coherent States of
Light [58.8645797643406]
We propose and experimentally test a quantum generalization of the microscopic reversibility when a quantum system interacts with a heat bath.
We verify that the quantum modification for the principle of microscopic reversibility is critical in the low-temperature limit.
arXiv Detail & Related papers (2022-05-26T00:25:29Z) - Quantum simulation of Hawking radiation and curved spacetime with a
superconducting on-chip black hole [18.605453401936643]
We report a fermionic lattice-model-type realization of an analogue black hole by using a chain of 10 superconducting transmon qubits with interactions mediated by 9 transmon-type tunable couplers.
The quantum walks of quasi-particle in the curved spacetime reflect the gravitational effect near the black hole, resulting in the behaviour of stimulated Hawking radiation.
arXiv Detail & Related papers (2021-11-22T10:17:23Z) - Quantum vacuum excitation of a quasi-normal mode in an analog model of
black hole spacetime [19.767470853445776]
We use a driven-dissipative quantum fluid of microcavity polaritons as an analog model of a quantum field theory on a black-hole spacetime.
We show that, in addition to the Hawking effect at the sonic horizon, quantum fluctuations may result in a sizeable stationary excitation of a quasi-normal mode of the field theory.
arXiv Detail & Related papers (2021-10-27T14:16:12Z) - Spacetime effects on wavepackets of coherent light [24.587462517914865]
We introduce an operational way to distinguish between the overall shift in the pulse wavepacket and its genuine deformation after propagation.
We then apply our technique to quantum states of photons that are coherent in the frequency degree of freedom.
We find that the quantum coherence initially present can enhance the deformation induced by propagation in a curved background.
arXiv Detail & Related papers (2021-06-23T14:20:19Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.