High-dimensional one-way quantum computation operations with on-chip optical d-level cluster states

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Authors

  • Christian Reimer
  • Michael Kues
  • Stefania Sciara
  • Piotr Roztocki
  • Mehedi Islam
  • Luis Romero Cortés
  • Yanbing Zhang
  • Bennet Fischer
  • Sébastien Loranger
  • Raman Kashyap
  • Alfonso Cino
  • Sai T. Chu
  • Brent E. Little
  • David J. Moss
  • Lucia Caspani
  • William J. Munro
  • José Azaña
  • Roberto Morandotti

External Research Organisations

  • INRS Universite d'avant-garde
  • Harvard University
  • University of Glasgow
  • University of Palermo
  • École polytechnique de Montréal
  • City University of Hong Kong
  • Xi'an Institute of Optics and Precision Mechanics Chinese Academy of Sciences
  • Swinburne University of Technology
  • University of Strathclyde
  • Nippon Telegraph & Telephone
  • Research Organization of Information and Systems National Institute of Informatics
  • University of Electronic Science and Technology of China
  • St. Petersburg National Research University of Information Technologies, Mechanics and Optics (ITMO)
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Details

Original languageEnglish
Title of host publicationCLEO
Subtitle of host publicationQELS_Fundamental Science, CLEO_QELS 2019
PublisherOSA - The Optical Society
ISBN (print)9781943580576
Publication statusPublished - 2019
Externally publishedYes
EventCLEO: QELS_Fundamental Science, CLEO_QELS 2019 - San Jose, United States
Duration: 5 May 201910 May 2019

Publication series

NameOptics InfoBase Conference Papers
VolumePart F128-CLEO_QELS 2019

Abstract

We implement on-chip generation of high-dimensional hyper-entangled states in the time- and frequency-domain, and transform them into d-level cluster states using a deterministic controlled phase gate. We then demonstrate measurement-based quantum computing operations and show the state's high tolerance towards noise.

ASJC Scopus subject areas

Cite this

High-dimensional one-way quantum computation operations with on-chip optical d-level cluster states. / Reimer, Christian; Kues, Michael; Sciara, Stefania et al.
CLEO: QELS_Fundamental Science, CLEO_QELS 2019. OSA - The Optical Society, 2019. (Optics InfoBase Conference Papers; Vol. Part F128-CLEO_QELS 2019).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Reimer, C, Kues, M, Sciara, S, Roztocki, P, Islam, M, Cortés, LR, Zhang, Y, Fischer, B, Loranger, S, Kashyap, R, Cino, A, Chu, ST, Little, BE, Moss, DJ, Caspani, L, Munro, WJ, Azaña, J & Morandotti, R 2019, High-dimensional one-way quantum computation operations with on-chip optical d-level cluster states. in CLEO: QELS_Fundamental Science, CLEO_QELS 2019. Optics InfoBase Conference Papers, vol. Part F128-CLEO_QELS 2019, OSA - The Optical Society, CLEO: QELS_Fundamental Science, CLEO_QELS 2019, San Jose, United States, 5 May 2019. https://doi.org/10.1364/cleo_qels.2019.fth1a.4
Reimer, C., Kues, M., Sciara, S., Roztocki, P., Islam, M., Cortés, L. R., Zhang, Y., Fischer, B., Loranger, S., Kashyap, R., Cino, A., Chu, S. T., Little, B. E., Moss, D. J., Caspani, L., Munro, W. J., Azaña, J., & Morandotti, R. (2019). High-dimensional one-way quantum computation operations with on-chip optical d-level cluster states. In CLEO: QELS_Fundamental Science, CLEO_QELS 2019 (Optics InfoBase Conference Papers; Vol. Part F128-CLEO_QELS 2019). OSA - The Optical Society. https://doi.org/10.1364/cleo_qels.2019.fth1a.4
Reimer C, Kues M, Sciara S, Roztocki P, Islam M, Cortés LR et al. High-dimensional one-way quantum computation operations with on-chip optical d-level cluster states. In CLEO: QELS_Fundamental Science, CLEO_QELS 2019. OSA - The Optical Society. 2019. (Optics InfoBase Conference Papers). doi: 10.1364/cleo_qels.2019.fth1a.4
Reimer, Christian ; Kues, Michael ; Sciara, Stefania et al. / High-dimensional one-way quantum computation operations with on-chip optical d-level cluster states. CLEO: QELS_Fundamental Science, CLEO_QELS 2019. OSA - The Optical Society, 2019. (Optics InfoBase Conference Papers).
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title = "High-dimensional one-way quantum computation operations with on-chip optical d-level cluster states",
abstract = "We implement on-chip generation of high-dimensional hyper-entangled states in the time- and frequency-domain, and transform them into d-level cluster states using a deterministic controlled phase gate. We then demonstrate measurement-based quantum computing operations and show the state's high tolerance towards noise.",
author = "Christian Reimer and Michael Kues and Stefania Sciara and Piotr Roztocki and Mehedi Islam and Cort{\'e}s, {Luis Romero} and Yanbing Zhang and Bennet Fischer and S{\'e}bastien Loranger and Raman Kashyap and Alfonso Cino and Chu, {Sai T.} and Little, {Brent E.} and Moss, {David J.} and Lucia Caspani and Munro, {William J.} and Jos{\'e} Aza{\~n}a and Roberto Morandotti",
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T1 - High-dimensional one-way quantum computation operations with on-chip optical d-level cluster states

AU - Reimer, Christian

AU - Kues, Michael

AU - Sciara, Stefania

AU - Roztocki, Piotr

AU - Islam, Mehedi

AU - Cortés, Luis Romero

AU - Zhang, Yanbing

AU - Fischer, Bennet

AU - Loranger, Sébastien

AU - Kashyap, Raman

AU - Cino, Alfonso

AU - Chu, Sai T.

AU - Little, Brent E.

AU - Moss, David J.

AU - Caspani, Lucia

AU - Munro, William J.

AU - Azaña, José

AU - Morandotti, Roberto

N1 - Publisher Copyright: © 2019 The Author(s). Copyright: Copyright 2019 Elsevier B.V., All rights reserved.

PY - 2019

Y1 - 2019

N2 - We implement on-chip generation of high-dimensional hyper-entangled states in the time- and frequency-domain, and transform them into d-level cluster states using a deterministic controlled phase gate. We then demonstrate measurement-based quantum computing operations and show the state's high tolerance towards noise.

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DO - 10.1364/cleo_qels.2019.fth1a.4

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SN - 9781943580576

T3 - Optics InfoBase Conference Papers

BT - CLEO

PB - OSA - The Optical Society

T2 - CLEO: QELS_Fundamental Science, CLEO_QELS 2019

Y2 - 5 May 2019 through 10 May 2019

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