Focus Session: Superconducting Qubits: Gates and Entanglement

Presentations

• Driven superconducting quantum circuits

  COFFEE_KLATCH · Invited

  March 3, 2014, 2:30 PM – March 3, 2014, 3:06 PM

  Authors

  • Yasunobu Nakamura

    • Research Center for Advanced Science and Technology, The University of Tokyo, Japan, Center for Emergent Matter Science, RIKEN, Japan
    • RIKEN and Research Center for Advanced Science and Technology, the University of Tokyo, Japan
    • The University of Tokyo

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• Optimized pulse shapes for a resonator-induced phase gate

  ORAL

  March 3, 2014, 3:06 PM – March 3, 2014, 3:18 PM

  Authors

  • Andrew Cross

    • IBM
    • IBM T. J. Watson Research Center

  • Jay Gambetta

    • IBM T. J. Watson Research Center

  • Stefano Poletto

    • IBM T. J. Watson Research Center

  • Doug Mcclure

    • IBM T. J. Watson Research Center

  • Oliver Dial

    • IBM T. J. Watson Research Center

  • Matthias Steffen

    • IBM T. J. Watson Research Center

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• Cross-resonance interactions between superconducting qubits with variable detuning

  ORAL

  March 3, 2014, 3:18 PM – March 3, 2014, 3:30 PM

  Authors

  • Matthew Ware

    • Syracuse University

  • Blake Johnson

    • Ratheon BBN Technologies

  • Jay Gambetta

    • IBM T.J. Watson Research Center

  • Colm Ryan

    • Ratheon BBN Technologies

  • Thomas Ohki

    • Ratheon BBN Technologies

  • Jerry Chow

    • IBM T.J. Watson Research Center

  • B.L.T. Plourde

    • Syracuse University

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• A circuit QED controlled-Z ``AMP'' gate (Adiabatic MultiPole gate)

  ORAL

  March 3, 2014, 3:30 PM – March 3, 2014, 3:42 PM

  Authors

  • David Mckay

    • Physics Department and James Franck Institute, University of Chicago
    • University of Chicago

  • Ravi Naik

    • Physics Department and James Franck Institute, University of Chicago

  • Lev S. Bishop

    • JQI and CMTC, University of Maryland, College Park

  • David I. Schuster

    • Physics Department and James Franck Institute, University of Chicago

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• Achieving high contrast on/off ratios using the multipole circuit QED architecture

  ORAL

  March 3, 2014, 3:42 PM – March 3, 2014, 3:54 PM

  Authors

  • Ravi Naik

    • Physics Department and James Franck Institute, University of Chicago

  • David C. McKay

    • Physics Department and James Franck Institute, University of Chicago

  • Lev S. Bishop

    • JQI and CMTC, University of Maryland, College Park

  • David I. Schuster

    • Physics Department and James Franck Institute, University of Chicago

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• Remote entanglement of transmon qubits

  ORAL

  March 3, 2014, 3:54 PM – March 3, 2014, 4:06 PM

  Authors

  • Michael Hatridge

    • Departments of Applied Physics and Physics, Yale University
    • Applied Physics Department, Yale University
    • Yale Univ. Depts. of Applied Physics and Physics

  • K. Sliwa

    • Applied Physics Department, Yale University

  • A. Narla

    • Applied Physics Department, Yale University

  • S. Shankar

    • Applied Physics Department, Yale University

  • Z. Leghtas

    • Applied Physics Department, Yale University

  • M. Mirrahimi

    • Applied Physics Department, Yale University and INRIA Paris Rocquencourt

  • S.M. Girvin

    • Applied Physics Department, Yale University

  • R.J. Schoelkopf

    • Applied Physics Department, Yale University

  • M.H. Devoret

    • Applied Physics Department, Yale University

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• High fidelity gates and states in a 5 Xmon qubit Josephson quantum processor, part I: architecture

  ORAL

  March 3, 2014, 4:06 PM – March 3, 2014, 4:18 PM

  Authors

  • J. Kelly

    • Univ of California - Santa Barbara
    • UC Santa Barbara

  • R. Barends

    • UC Santa Barbara

  • A. Megrant

    • UC Santa Barbara

  • A. Veitia

    • UC Riverside

  • E. Jeffrey

    • UC Santa Barbara

  • D. Sank

    • UC Santa Barbara

  • T. White

    • UC Santa Barbara

  • J. Mutus

    • UC Santa Barbara

  • J. Bochmann

    • UC Santa Barbara

  • B. Campbell

    • UC Santa Barbara

  • Y. Chen

    • UC Santa Barbara

  • Z. Chen

    • UC Santa Barbara

  • B. Chiaro

    • UC Santa Barbara

  • A. Dunsworth

    • UC Santa Barbara

  • I. Hoi

    • UC Santa Barbara

  • C. Neill

    • UC Santa Barbara

  • P. O'Malley

    • UC Santa Barbara

  • C. Quintana

    • UC Santa Barbara

  • P. Roushan

    • UC Santa Barbara

  • A. Vainsencher

    • UC Santa Barbara

  • J. Wenner

    • UC Santa Barbara

  • A. Korotkov

    • UC Riverside

  • A.N. Cleland

    • UC Santa Barbara

  • J.M. Martinis

    • UC Santa Barbara

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• High fidelity gates and states in a 5 Xmon qubit Josephson quantum processor, part II: multiqubit logic

  ORAL

  March 3, 2014, 4:18 PM – March 3, 2014, 4:30 PM

  Authors

  • R. Barends

    • Univ of California - Santa Barbara
    • UC Santa Barbara

  • J. Kelly

    • UC Santa Barbara

  • A. Megrant

    • UC Santa Barbara

  • A. Veitia

    • UC Riverside

  • E. Jeffrey

    • UC Santa Barbara

  • D. Sank

    • UC Santa Barbara

  • T. White

    • UC Santa Barbara

  • J. Mutus

    • UC Santa Barbara

  • J. Bochmann

    • UC Santa Barbara

  • B. Campbell

    • UC Santa Barbara

  • Y. Chen

    • UC Santa Barbara

  • Z. Chen

    • UC Santa Barbara

  • B. Chiaro

    • UC Santa Barbara

  • A. Dunsworth

    • UC Santa Barbara

  • I. Hoi

    • UC Santa Barbara

  • C. Neill

    • UC Santa Barbara

  • P. O'Malley

    • UC Santa Barbara

  • C. Quintana

    • UC Santa Barbara

  • P. Roushan

    • UC Santa Barbara

  • A. Vainsencher

    • UC Santa Barbara

  • J. Wenner

    • UC Santa Barbara

  • A. Korotkov

    • UC Riverside

  • A.N. Cleland

    • UC Santa Barbara

  • J.M. Martinis

    • UC Santa Barbara

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• High fidelity gates and states in a 5 Xmon qubit Josephson quantum processor, part III: controlled-Z theory

  ORAL

  March 3, 2014, 4:30 PM – March 3, 2014, 4:42 PM

  Authors

  • John Martinis

    • University of California, Santa Barbara
    • Univ of California - Santa Barbara
    • UC Santa Barbara
    • UC Santa Barbara, USA
    • Department of Physics, University of California, Santa Barbara, California 93106, USA

  • R. Barends

    • UC Santa Barbara

  • J. Kelly

    • UC Santa Barbara

  • A. Megrant

    • UC Santa Barbara

  • A. Veitia

    • UC Riverside

  • E. Jeffrey

    • UC Santa Barbara

  • D. Sank

    • UC Santa Barbara

  • T. White

    • UC Santa Barbara

  • J. Mutus

    • UC Santa Barbara

  • J. Bochmann

    • UC Santa Barbara

  • B. Campbell

    • UC Santa Barbara

  • Y. Chen

    • UC Santa Barbara

  • Z. Chen

    • UC Santa Barbara

  • B. Chiaro

    • UC Santa Barbara

  • A. Dunsworth

    • UC Santa Barbara

  • I. Hoi

    • UC Santa Barbara

  • C. Neill

    • UC Santa Barbara

  • P. O'Malley

    • UC Santa Barbara

  • C. Quintana

    • UC Santa Barbara

  • P. Roushan

    • UC Santa Barbara

  • A. Vainsencher

    • UC Santa Barbara

  • J. Wenner

    • UC Santa Barbara

  • A. Korotkov

    • UC Riverside

  • A.N. Cleland

    • UC Santa Barbara

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• Model Free Gate Design and Calibration For Superconducting Qubits

  ORAL

  March 3, 2014, 4:42 PM – March 3, 2014, 4:54 PM

  Authors

  • D.J. Egger

    • Saarland University
    • Univ des Saarlandes
    • Universit\"at des Saarlandes

  • F.K. Wilhelm

    • Saarland University
    • Univ des Saarlandes
    • Universit\"at des Saarlandes

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• Frequency Modulating Entangling Gates

  ORAL

  March 3, 2014, 4:54 PM – March 3, 2014, 5:06 PM

  Authors

  • Thomas Ohki

    • Raytheon BBN Technologies
    • Raytheon BBN Technology - Massachusetts

  • Colm Ryan

    • Raytheon BBN Technology - Massachusetts

  • Blake Johnson

    • Raytheon BBN Technology - Massachusetts

  • Kin Chung Fong

    • Raytheon BBN Technology - Massachusetts

  • Matt Ware

    • Syracuse University

  • Britton Plourde

    • Syracuse University

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• Monitoring the performance of an autonomous entanglement stabilization protocol in real time

  ORAL

  March 3, 2014, 5:06 PM – March 3, 2014, 5:18 PM

  Authors

  • Y. Liu

    • Department of Applied Physics, Yale University
    • Departments of Applied Physics and Physics, Yale University

  • S. Shankar

    • Department of Applied Physics, Yale University

  • N. Ofek

    • Department of Applied Physics, Yale University

  • M. Hatridge

    • Department of Applied Physics, Yale University

  • A. Narla

    • Department of Applied Physics, Yale University

  • K.M. Sliwa

    • Department of Applied Physics, Yale University

  • R.J. Schoelkopf

    • Department of Applied Physics, Yale University

  • M.H. Devoret

    • Department of Applied Physics, Yale University

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• Efficient three-qubit entangling (Toffoli) gates via excited states in qubit-cavity systems.

  ORAL

  March 3, 2014, 5:18 PM – March 3, 2014, 5:30 PM

  Authors

  • Thomas Reinecke

    • U.S. Naval Research Laboratory
    • Naval Research Laboratory, Washington, District of Columbia 20375

  • Sophia Economou

    • Naval Research Lab
    • Naval Research Laboratory, Washington, District of Columbia 20375
    • Naval Research Laboratory

  • Dmitry Solenov

    • National Research Council, National Academies, Washington, District of Columbia 20001

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