Scalable multiparty steering using a single entangled photon-pair

The distribution and verification of quantum nonlocality across a network of users is essential for future quantum information science and technology applications. However, beyond simple point-to-point protocols, existing methods struggle with increasingly complex state preparation for a growing num...

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Main Authors: Pepper, Alex, Baker, Travis J., Wang, Yuanlong, Song, Qiu-Cheng, Shalm, Lynden K., Verma, Varun B., Nam, Sae Woo, Tischler, Nora, Slussarenko, Sergei, Wiseman, Howard M., Pryde, Geoff J.
Other Authors: School of Physical and Mathematical Sciences
Format: Article
Language:English
Published: 2024
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Online Access:https://hdl.handle.net/10356/179737
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1797372024-08-26T15:35:46Z Scalable multiparty steering using a single entangled photon-pair Pepper, Alex Baker, Travis J. Wang, Yuanlong Song, Qiu-Cheng Shalm, Lynden K. Verma, Varun B. Nam, Sae Woo Tischler, Nora Slussarenko, Sergei Wiseman, Howard M. Pryde, Geoff J. School of Physical and Mathematical Sciences Nanyang Quantum Hub Physics Quantum Dot Electron Paramagnetic Resonance The distribution and verification of quantum nonlocality across a network of users is essential for future quantum information science and technology applications. However, beyond simple point-to-point protocols, existing methods struggle with increasingly complex state preparation for a growing number of parties. Here, we experimentally demonstrate multiparty detection-loophole-free quantum steering, where one party simultaneously steers multiple spatially separate parties, using a multi-qubit state produced from a set of qubits of which only one pair is entangled. We derive loss-tolerant steering inequalities, enabling our experiment to close the detection loophole, and enabling us to show the scalability of this approach to rigorously verify quantum nonlocality across arbitrarily many parties. This provides practical tools for developing the future quantum internet. Published version This work was supported by the Australian Research Council Centre of Excellence CE170100012 and the National Natural Science Foundation of China (No. 12288201). 2024-08-20T02:23:53Z 2024-08-20T02:23:53Z 2024 Journal Article Pepper, A., Baker, T. J., Wang, Y., Song, Q., Shalm, L. K., Verma, V. B., Nam, S. W., Tischler, N., Slussarenko, S., Wiseman, H. M. & Pryde, G. J. (2024). Scalable multiparty steering using a single entangled photon-pair. AVS Quantum Science, 6(2), 021401-. https://dx.doi.org/10.1116/5.0197186 2639-0213 https://hdl.handle.net/10356/179737 10.1116/5.0197186 2-s2.0-85195164401 2 6 021401 en AVS Quantum Science © 2024 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/4.0/). application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Physics
Quantum Dot
Electron Paramagnetic Resonance
spellingShingle Physics
Quantum Dot
Electron Paramagnetic Resonance
Pepper, Alex
Baker, Travis J.
Wang, Yuanlong
Song, Qiu-Cheng
Shalm, Lynden K.
Verma, Varun B.
Nam, Sae Woo
Tischler, Nora
Slussarenko, Sergei
Wiseman, Howard M.
Pryde, Geoff J.
Scalable multiparty steering using a single entangled photon-pair
description The distribution and verification of quantum nonlocality across a network of users is essential for future quantum information science and technology applications. However, beyond simple point-to-point protocols, existing methods struggle with increasingly complex state preparation for a growing number of parties. Here, we experimentally demonstrate multiparty detection-loophole-free quantum steering, where one party simultaneously steers multiple spatially separate parties, using a multi-qubit state produced from a set of qubits of which only one pair is entangled. We derive loss-tolerant steering inequalities, enabling our experiment to close the detection loophole, and enabling us to show the scalability of this approach to rigorously verify quantum nonlocality across arbitrarily many parties. This provides practical tools for developing the future quantum internet.
author2 School of Physical and Mathematical Sciences
author_facet School of Physical and Mathematical Sciences
Pepper, Alex
Baker, Travis J.
Wang, Yuanlong
Song, Qiu-Cheng
Shalm, Lynden K.
Verma, Varun B.
Nam, Sae Woo
Tischler, Nora
Slussarenko, Sergei
Wiseman, Howard M.
Pryde, Geoff J.
format Article
author Pepper, Alex
Baker, Travis J.
Wang, Yuanlong
Song, Qiu-Cheng
Shalm, Lynden K.
Verma, Varun B.
Nam, Sae Woo
Tischler, Nora
Slussarenko, Sergei
Wiseman, Howard M.
Pryde, Geoff J.
author_sort Pepper, Alex
title Scalable multiparty steering using a single entangled photon-pair
title_short Scalable multiparty steering using a single entangled photon-pair
title_full Scalable multiparty steering using a single entangled photon-pair
title_fullStr Scalable multiparty steering using a single entangled photon-pair
title_full_unstemmed Scalable multiparty steering using a single entangled photon-pair
title_sort scalable multiparty steering using a single entangled photon-pair
publishDate 2024
url https://hdl.handle.net/10356/179737
_version_ 1814047387265531904