Arenz Lab

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Arenz Lab

Publications

2023

  • S. C. Burd, H. M. Knaack, R. Srinivas, C. Arenz, A. L. Collopy, L. J. Stephenson, A. C. Wilson, D. J. Wineland, D. Leibfried, J. J. Bollinger, D. T. C. Allcock, and D. H. Slichter,
    Experimental speedup of quantum dynamics through squeezing
    arXiv: 2304.05529.
  • Jingcheng Wang, Shaoliang Zhang, Jianming Cai, Zhenyu Liao, Christian Arenz, and Ralf Betzholz,
    Robustness of random-control quantum-state tomography
    arXiv: 2302.07439.
  • Alicia Magann, Sophia Economou, and Christian Arenz,
    Randomized adaptive quantum state preparation
    arXiv: 2301.04201.
  • Alicia Magann, Tak-San Ho, Christian Arenz, and Herschel Rabitz,
    Quantum tracking control of the orientation of symmetric top molecules
    arXiv: 2301.04255.

2021

  • Juneseo Lee, Alicia Magann, Herschel Rabitz, and Christian Arenz,
    Progress toward favorable landscapes in quantum combinatorial optimization
    Phys. Rev. A 104, 032401 (2021), arXiv: 2105.01114.
  • Alicia Magann, Christian Arenz, Matthew Grace, Tak-San Ho, Robert Kosut, Jarrod McClean, Herschel Rabitz, and Mohan Sarovar,
    From pulses to circuits and back again: A quantum optimal control perspective on variational quantum algorithms,
    PRX Quantum 2, 010101 (2021), arXiv:2009.06702.

2020

  • Xiao-dong Yang, Christian Arenz, Istvan Pelczer, Qi-Ming Chen, Re-bing Wu, Xin-hua Peng, and Herschel Rabitz,
    Assessing three closed-loop learning algorithms by searching for high-quality quantum control pulses,
    Phys. Rev. A 102, 062602 (2020), arXiv:2008.03874.
  • Christian Arenz and Herschel Rabitz,
    Drawing together control landscape and tomography principles,
    Phys. Rev. A 102, 042207 (2020), arXiv:2004.02729.
  • Christian Arenz, Denys I. Bondar, Daniel Burgarth, Cecilia Cormick and Herschel Rabitz,
    Amplification of quadratic Hamiltonians,
    Quantum 4, 271 (2020), arXiv:1806.00444.
  • Pengcheng Yang, Min Yu, Ralf Betzholz, Christian Arenz, and Jianming Cai,
    Complete quantum-state tomography with a local random field,
    Phys. Rev. Lett. 124, 010405 (2020),  arXiv:1909.09980.
  • Christian Arenz and Anja Metelmann,
    Emerging unitary evolutions in dissipatively coupled systems,
    Phys. Rev. A 101, 022101 (2020), arXiv:1906.03481.
  • Qi-Ming Chen, Xiaodong Yang, Christian Arenz, Re-Bing Wu, Xinhua Peng, Istvan Pelczer, and Herschel Rabitz,
    Combining the synergistic control capabilities of modeling and experiments: illustration of find- ing a minimum time quantum objective,
    Phys. Rev. A 101, 032313 (2020),  arXiv:1812.05042.
  • Juneseo Lee, Christian Arenz, Daniel Burgarth, and Herschel Rabitz,
    An upper bound on the time required to implement unitary operations,
    J. Phys. A: Math. Theor. 53, 125304 (2020),  arXiv:1905.11482.

2019

  • Robert Kosut, Christian Arenz, and Herschel Rabitz,
    Quantum control landscape of bipartite systems,
    J. Phys. A: Math. Theor. 52 165305 (2019),  arXiv:1810.04362.

2018

  • Juneseo Lee, Christian Arenz, Herschel Rabitz, and Benjamin Russell,
    Dependence of the quantum speed limit on system size and control complexity,
    New J. Phys. 20, 063002 (2018),  arXiv:1803.00027.
  • Christian Arenz and Herschel Rabitz,
    Controlling qubit networks in polynomial time,
    Phys. Rev. Lett. 120, 220503 (2018),  arXiv:1710.02579.
  • Christian Arenz, Daniel Burgarth, Paolo Facchi and Robin Hillier,
    Dynamical Decoupling of unbounded Hamiltonians,
    J. Math. Phys. 59, 032203 (2018),  arXiv:1704.06143.

2017

  • Christian Arenz, Daniel Burgarth, Benjamin Russell and Herschel Rabitz,
    The roles of drift and control field constraints upon quantum control speed limits,
    New J. Phys. 19, 103015 (2017),  arXiv:1704.06289.
  • Christian Arenz, Daniel Burgarth, Vittorio Giovannetti, Hiromichi Nakazato and Kazuya Yuasa,
    Lindbladian purification,
    Quantum Sci. Technol. 2, 024001 (2017),  arXiv:1701.02936.
  • Edwin Barnes, Christian Arenz, Alexander Pitchford and Sophia E. Economou,
    Fast microwave-driven three-qubit gates for cavity-coupled superconducting qubits,
    Phys. Rev. B 96, 024504 (2017),  arXiv:1612.09384.

2016

  • Christian Arenz, Robin Hillier and Daniel Burgarth,
    Dynamical decoupling and Homogenization of continuous variable systems,
    J. Phys. A: Math. Theor. 50, 135303 (2016),  arXiv:1605.05908.
  • Christian Arenz, Daniel Burgarth, Paolo Facchi, Vittorio Giovannetti, Hiromichi Nakazato, Saverio Pascazio and Kazuya Yuasa,
    Universal control induced by noise,
    Phys. Rev. A 93, 062308 (2016),  arXiv:1601.01212.

2015

  • Robin Hillier, Christian Arenz and Daniel Burgarth,
    A continuous-time diffusion limit theorem for dynamical decoupling and intrinsic decoherence,
    J. Phys. A: Math. Theor. 48, 155301 (2015),  arXiv:1405.7666.
  • Christian Arenz, Robin Hillier, Martin Fraas and Daniel Burgarth,
    Distinguishing decoherence from alternative quantum theories by dynamical decoupling,
    Phys. Rev. A 92, 022102 (2015),  arXiv:1405.7644.

2014

  • Christian Arenz, Giulia Gualdi and Daniel Burgarth,
    Control of open quantum systems: case study of the central spin model,
    New J. Phys. 16, 065023 (2014),  arXiv:1312.0160.
  • Christian Arenz, Cecilia Cormick, David Vitali and Giovanna Morigi,
    Generation of two-mode entangled states by quantum reservoir engineering,
    J. Phys. B: At. Mol. Opt. Phys. 46, 224001 (2013),  arXiv:1303.1977.