Observable quantum entanglement due to gravity

Krisnanda, Tanjung; Tham, Guo Yao; Paternostro, Mauro; Paterek, Tomasz

doi:10.1038/s41534-020-0243-y

Cited by 146 publications

(98 citation statements)

References 44 publications

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“…Also, we identify a condition under which one can detect entanglement in a device-independent manner using the CHSH inequality. We would like to mention that recently a similar detailed analysis of the entanglement dynamics has been made for another setup of the experiment [27]. We hope that together these analyses provide useful inputs for a realisation of the experiment in the near future.…”

Section: Discussionmentioning

confidence: 73%

Entanglement dynamics of two mesoscopic objects with gravitational interaction

Nguyen

Bernards

2020

Eur. Phys. J. D

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We analyse the entanglement dynamics of the two particles interacting through gravity in the recently proposed experiments aiming at testing quantum signatures for gravity [Phy. Rev. Lett 119, 240401 & 240402 (2017)]. We consider the open dynamics of the system under decoherence due to the environmental interaction. We show that as long as the coupling between the particles is strong, the system does indeed develop entanglement, confirming the qualitative analysis in the original proposals. We show that the entanglement is also robust against stochastic fluctuations in setting up the system. The optimal interaction duration for the experiment is computed. A condition under which one can prove the entanglement in a device-independent manner is also derived.

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Section: Discussionmentioning

confidence: 73%

Entanglement dynamics of two mesoscopic objects with gravitational interaction

Nguyen

Bernards

2020

Eur. Phys. J. D

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“…Revealing nonclassical properties and correlations with inaccessible objects may provide a promising route towards identifying quantum effects in complex situations where a detailed quantum description of the object is challenging. This approach has been recently suggested in the context of biological systems [42], quantum processes [43], and even for tests of quantum gravity [44].…”

Section: Discussionmentioning

confidence: 99%

Revealing Correlations Between a System and an Inaccessible Environment

Gessner

Breuer

2019

Springer Proceedings in Physics

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How can we detect that our local, controllable quantum system is correlated with some other inaccessible environmental system? The local detection method developed in recent years allows to realize a dynamical witness for correlations without requiring knowledge of or access to the environment that is correlated with the local accessible quantum system. Here, we provide a brief summary of the theoretical method and recent experimental studies with single photons and trapped ions coupled to increasingly complex environments.

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“…A detailed study of the observability of gravitationally induced entanglement in a variety of experimental configurations has been undertaken. [ 160 ] Alternatively, one might hope to directly probe the gravitational field generated by a quantum superposition; [ 161 ] that is, experimentally determine whether a gravitational field generated by a quantum system in spatial superposition is itself in a coherent superposition or not.…”

Section: Levitated Optomechanicsmentioning

confidence: 99%

Trends in Quantum Nanophotonics

Huang

Woolley

et al. 2020

Adv Quantum Tech

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In this review, the nexus of nanophotonics and quantum science is considered. This nexus offers a wealth of applications and novel fundamental effects. Such an interdisciplinary approach may serve as a starting point for developing groundbreaking technologies. Several new directions in quantum nanophotonics are addressed, including strong light-matter coupling, bound states in the continuum, topological photonics, metasurfaces and photon sources, and levitated optomechanics. This review hopefully will foster the enhanced interaction between the nanophotonics and quantum science communities. Such a synergy will lead to the realization of novel communication, sensing, and information processing systems.

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Observable quantum entanglement due to gravity

Cited by 146 publications

References 44 publications

Entanglement dynamics of two mesoscopic objects with gravitational interaction

Entanglement dynamics of two mesoscopic objects with gravitational interaction

Revealing Correlations Between a System and an Inaccessible Environment

Trends in Quantum Nanophotonics

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