web2019/content/experiment-control/publications.md
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This page lists publications about experiments performed using ARTIQ, or which otherwise cite ARTIQ.
  • Fast quantum logic gates with trapped-ion qubits
    V. M. Schäfer, C. J. Ballance, K. Thirumalai, L. J. Stephenson, T. G. Ballance, A. M. Steane & D. M. Lucas
    Nature volume 555, pages75-78(2018) | arXiv
  • Programming languages and compiler design for realistic quantum hardware
    Frederic T. Chong, Diana Franklin & Margaret Martonosi
    Nature volume 549, pages180-187(2017)
  • High-rate, high-fidelity entanglement of qubits across an elementary quantum network
    L.J. Stephenson, D.P. Nadlinger, B.C. Nichol, S. An, P. Drmota, T.G. Ballance, K. Thirumalai, J.F. Goodwin, D.M. Lucas & C.J. Ballance
    Phys. Rev. Lett. 124, 110501 | arXiv
  • Device-Independent Quantum Key Distribution
    D. P. Nadlinger, P. Drmota, B. C. Nichol, G. Araneda, D. Main, R. Srinivas, D. M. Lucas, C. J. Ballance, K. Ivanov, E. Y-Z. Tan, P. Sekatski, R. L. Urbanke, R. Renner, N. Sangouard & J-D. Bancal
    arXiv
  • Universal Graph-Based Scheduling for Quantum Systems
    L. Riesebos, B. Bondurant, & Kenneth R. Brown
    IEEE Micro, Volume: 41, Issue: 5, Sept.-Oct. 1 2021
  • Fault-Tolerant Operation of a Quantum Error-Correction Code
    Laird Egan, Dripto M. Debroy, Crystal Noel, Andrew Risinger, Daiwei Zhu, Debopriyo Biswas, Michael Newman, Muyuan Li, Kenneth R. Brown, Marko Cetina & Christopher Monroe
    arXiv
  • Probing Qubit Memory Errors at the Part-per-Million Level
    M.A. Sepiol, A.C. Hughes, J.E. Tarlton, D.P. Nadlinger, T.G. Ballance, C.J. Ballance, T.P. Harty, A.M. Steane, J.F. Goodwin & D.M. Lucas
    Phys. Rev. Lett. 123, 110503 | arXiv
  • Quantum amplification of mechanical oscillator motion
    S. C. Burd, R. Srinivas, J. J. Bollinger, A. C. Wilson, D. J. Wineland, D. Leibfried, D. H. Slichter & D. T. C. Allcock
    Science, Vol 364, Issue 6446, 21 June 2019
  • State Readout of a Trapped Ion Qubit Using a Trap-Integrated Superconducting Photon Detector
    S. L. Todaro, V. B. Verma, K. C. McCormick, D. T. C. Allcock, R. P. Mirin, D. J. Wineland, S. W. Nam, A. C. Wilson, D. Leibfried & D. H. Slichter
    arXiv
  • Trapped-Ion Spin-Motion Coupling with Microwaves and a Near-Motional Oscillating Magnetic Field Gradient
    R. Srinivas, S.C. Burd, R.T. Sutherland, A.C. Wilson, D.J. Wineland, D. Leibfried, D.T.C. Allcock & D.H. Slichter
    Phys. Rev. Lett. 122, 163201 | arXiv
  • Speed, retention loss, and motional heating of atoms in an optical conveyor belt
    G. T. Hickman & M. Saffman
    Phys. Rev. A 101, 063411 | arXiv
  • A hybrid ion-atom trap with integrated high resolution mass spectrometer
    S. Jyothi, Kisra N. Egodapitiya, Brad Bondurant, Zhubing Jia, Eric Pretzsch, Piero Chiappina, Gang Shu & Kenneth R. Brown
    Review of Scientific Instruments 90, 103201 (2019) | arXiv
  • Photon-mediated charge-exchange reactions between 39K atoms and 40Ca+ ions in a hybrid trap
    Hui Li, S. Jyothi, Ming Li, Jacek Klos, Alexander Petrov, Kenneth R Brown & Svetlana Kotochigova
    Phys. Chem. Chem. Phys., 2020,22, 10870-10881 | arXiv
  • Spin Readout Techniques of the Nitrogen-Vacancy Center in Diamond
    David A. Hopper, Henry J. Shulevitz, & Lee C. Bassett
    Micromachines 2018, 9(9), 437 | arXiv
  • High-accuracy inertial measurements with cold-atom sensors
    Remi Geiger, Arnaud Landragin, Sébastien Merlet & Franck Pereira Dos Santos
    AVS Quantum Sci. 2, 024702 (2020) | arXiv
  • Dynamical low-noise microwave source for cold atom experiments
    Bernd Meyer, Alexander Idel, Fabian Anders, Jan Peise & Carsten Klempt
    arXiv
  • Ion-trapping lab setup for quantum information experiments
    Alexander Quinn, Jeremy Metzner, Daniel Moore, Vikram Sandhu, Dave Wineland, David Allcock
    DAMOP20 poster
  • Short Time Fourier Transform Pulse Generator for Trapped Ion Quantum Gates
    Norman Krackow
    local copy
  • Precise PID controller for quantum applications
    Jakub Matyas
    Warsaw University of Technology, Engineer's thesis | local copy
  • Controller module for real-time quantum applications
    Paweł Kulik
    Warsaw University of Technology, Masters's diploma thesis | local copy
  • Driver module for quantum computer experiments: Kasli
    Paweł Kulik, Grzegorz Kasprowicz and Michał Gąska
    Proceedings Volume 10808, Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments 2018 | slides
  • Urukul open-source frequency synthesizer module for quantum physics
    Grzegorz Kasprowicz, Thomas Harty, Sébastien Bourdeauducq, Robert Jördens, David Allcock, David Nadlinger, Joseph Britton, Ana Sotirova, Dorota Nowicka
    International Journal of Electronics and Telecommunications, Vol 68, No 1 (2022)
  • Control system for ion Penning traps at the AEgIS experiment at CERN
    Dorota Nowicka
    TIPP 2021 Poster
  • Integrated photonic control of trapped ion qubits
    Jules Stuart, Dave Reens, Cheri Sorace-Agaskar, Dave Kharas, Jeremy Sage, John Chiaverini
    NY CREATES presentation
  • Sayma: Agile RF for Coherent Quantum Control Using ARTIQ
    Joseph W. Britton, David T. C. Allcock, Chris Ballance, Tom P. Harty, Robert Jordens, Greg Kasprowicz, Pawel Kulik, Daniel H. Slichter, Weida Zhang, Sebastien Bourdeauducq
    APS Division of Atomic and Molecular Physics Meeting 2019, abstract id.E01.164
  • Programowalny sterownik siłownika piezoelektrycznego
    Adam Kołodyński
    Warsaw University of Technology, Engineer's thesis | local copy
  • Microwave synthesizer for driving ion traps in quantum computing
    Krzysztof Belewicz
    Warsaw University of Technology, Bachelor's dipoma thesis | local copy
  • Wielokanałowy moduł sterujący pułapką jonową w standardzie MicroTCA.4
    Tomasz Przywózki
    Warsaw University of Technology, Master's thesis | local copy

To have your publication listed here, write to sb@m-l***.hk.