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Fault-tolerant measurement-based quantum computing with continuous-variable cluster states

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posted on 2024-11-23, 09:43 authored by Nicolas MenicucciNicolas Menicucci
A long-standing open question about Gaussian continuous-variable cluster states is whether they enable fault-tolerant measurement-based quantum computation. The answer is yes. Initial squeezing in the cluster above a threshold value of 20.5 dB ensures that errors from finite squeezing acting on encoded qubits are below the fault-tolerance threshold of known qubit-based error-correcting codes. By concatenating with one of these codes and using ancilla-based error correction, fault-tolerant measurement-based quantum computation of theoretically indefinite length is possible with finitely squeezed cluster states.

Funding

Quantum computation and relativistic quantum information

Australian Research Council

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History

Related Materials

  1. 1.
    DOI - Is published in 10.1103/PhysRevLett.112.120504
  2. 2.
    ISSN - Is published in 00319007

Journal

Physical Review Letters

Volume

112

Number

120504

Issue

12

Start page

1

End page

5

Total pages

5

Publisher

American Physical Society

Place published

United States

Language

English

Copyright

© 2014 American Physical Society

Former Identifier

2006056995

Esploro creation date

2020-06-22

Fedora creation date

2015-12-16

Open access

  • Yes

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    Categories

    Keywords

    Cluster stateContinuous variablesEncoded qubitsError correcting codeFault-tolerantMeasurement-basedMeasurement-based quantum computationQuantum Computing

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    All rights reserved

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