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Quantum Zeno repeaters

Quantum repeaters pave the way for long-distance quantum communications and quantum Internet, and the idea of quantum repeaters is based on entanglement swapping which requires the implementation of controlled quantum gates. Frequently measuring a quantum system affects its dynamics which is known a...

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Detalles Bibliográficos
Autores principales: Bayrakci, Veysel, Ozaydin, Fatih
Lenguaje:eng
Publicado: 2022
Materias:
Acceso en línea:https://dx.doi.org/10.1038/s41598-022-19170-z
http://cds.cern.ch/record/2836034
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author Bayrakci, Veysel
Ozaydin, Fatih
author_facet Bayrakci, Veysel
Ozaydin, Fatih
author_sort Bayrakci, Veysel
collection CERN
description Quantum repeaters pave the way for long-distance quantum communications and quantum Internet, and the idea of quantum repeaters is based on entanglement swapping which requires the implementation of controlled quantum gates. Frequently measuring a quantum system affects its dynamics which is known as the quantum Zeno effect (QZE). Beyond slowing down its evolution, QZE can be used to control the dynamics of a quantum system by introducing a carefully designed set of operations between measurements. Here, we propose an entanglement swapping protocol based on QZE, which achieves almost unit fidelity. Implementation of our protocol requires only simple frequent threshold measurements and single particle rotations. We extend the proposed entanglement swapping protocol to a series of repeater stations for constructing quantum Zeno repeaters which also achieve almost unit fidelity regardless of the number of repeaters. Requiring no controlled gates, our proposal reduces the quantum circuit complexity of quantum repeaters. Our work has potential to contribute to long distance quantum communications and quantum computing via quantum Zeno effect.
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institution Organización Europea para la Investigación Nuclear
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spelling cern-28360342023-09-29T02:12:25Zdoi:10.1038/s41598-022-19170-zhttp://cds.cern.ch/record/2836034engBayrakci, VeyselOzaydin, FatihQuantum Zeno repeatersquant-phQuantum TechnologyQuantum repeaters pave the way for long-distance quantum communications and quantum Internet, and the idea of quantum repeaters is based on entanglement swapping which requires the implementation of controlled quantum gates. Frequently measuring a quantum system affects its dynamics which is known as the quantum Zeno effect (QZE). Beyond slowing down its evolution, QZE can be used to control the dynamics of a quantum system by introducing a carefully designed set of operations between measurements. Here, we propose an entanglement swapping protocol based on QZE, which achieves almost unit fidelity. Implementation of our protocol requires only simple frequent threshold measurements and single particle rotations. We extend the proposed entanglement swapping protocol to a series of repeater stations for constructing quantum Zeno repeaters which also achieve almost unit fidelity regardless of the number of repeaters. Requiring no controlled gates, our proposal reduces the quantum circuit complexity of quantum repeaters. Our work has potential to contribute to long distance quantum communications and quantum computing via quantum Zeno effect.Quantum repeaters pave the way for long-distance quantum communications and quantum Internet, and the idea of quantum repeaters is based on entanglement swapping which requires the implementation of controlled quantum gates. Frequently measuring a quantum system affects its dynamics which is known as the quantum Zeno effect (QZE). Beyond slowing down its evolution, QZE can be used to control the dynamics of a quantum system by introducing a carefully designed set of operations between measurements. Here, we propose an entanglement swapping protocol based on QZE, which achieves almost unit fidelity. Implementation of our protocol requires only simple frequent threshold measurements and single particle rotations. We extend the proposed entanglement swapping protocol to a series of repeater stations for constructing quantum Zeno repeaters which also achieve almost unit fidelity regardless of the number of repeaters. Requiring no controlled gates, our proposal reduces the quantum circuit complexity of quantum repeaters. Our work has potential to contribute to long distance quantum communications and quantum computing via quantum Zeno effect.arXiv:2206.08785oai:cds.cern.ch:28360342022-06-17
spellingShingle quant-ph
Quantum Technology
Bayrakci, Veysel
Ozaydin, Fatih
Quantum Zeno repeaters
title Quantum Zeno repeaters
title_full Quantum Zeno repeaters
title_fullStr Quantum Zeno repeaters
title_full_unstemmed Quantum Zeno repeaters
title_short Quantum Zeno repeaters
title_sort quantum zeno repeaters
topic quant-ph
Quantum Technology
url https://dx.doi.org/10.1038/s41598-022-19170-z
http://cds.cern.ch/record/2836034
work_keys_str_mv AT bayrakciveysel quantumzenorepeaters
AT ozaydinfatih quantumzenorepeaters