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Simulating groundstate and dynamical quantum phase transitions on a superconducting quantum computer

Author

Listed:
  • James Dborin

    (London Centre for Nanotechnology, University College London)

  • Vinul Wimalaweera

    (London Centre for Nanotechnology, University College London)

  • F. Barratt

    (University of Massachusetts)

  • Eric Ostby

    (Google Quantum AI)

  • Thomas E. O’Brien

    (Google Quantum AI)

  • A. G. Green

    (London Centre for Nanotechnology, University College London)

Abstract

The phenomena of quantum criticality underlie many novel collective phenomena found in condensed matter systems. They present a challenge for classical and quantum simulation, in part because of diverging correlation lengths and consequently strong finite-size effects. Tensor network techniques that work directly in the thermodynamic limit can negotiate some of these difficulties. Here, we optimise a translationally invariant, sequential quantum circuit on a superconducting quantum device to simulate the groundstate of the quantum Ising model through its quantum critical point. We further demonstrate how the dynamical quantum critical point found in quenches of this model across its quantum critical point can be simulated. Our approach avoids finite-size scaling effects by using sequential quantum circuits inspired by infinite matrix product states. We provide efficient circuits and a variety of error mitigation strategies to implement, optimise and time-evolve these states.

Suggested Citation

  • James Dborin & Vinul Wimalaweera & F. Barratt & Eric Ostby & Thomas E. O’Brien & A. G. Green, 2022. "Simulating groundstate and dynamical quantum phase transitions on a superconducting quantum computer," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-33737-4
    DOI: 10.1038/s41467-022-33737-4
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