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Continuous symmetry breaking in a trapped-ion spin chain

Author

Listed:
  • Lei Feng

    (Duke University)

  • Or Katz

    (Duke University)

  • Casey Haack

    (Colorado School of Mines)

  • Mohammad Maghrebi

    (Michigan State University)

  • Alexey V. Gorshkov

    (University of Maryland and NIST)

  • Zhexuan Gong

    (Colorado School of Mines)

  • Marko Cetina

    (Duke University)

  • Christopher Monroe

    (Duke University
    IonQ, Inc.)

Abstract

One-dimensional systems exhibiting a continuous symmetry can host quantum phases of matter with true long-range order only in the presence of sufficiently long-range interactions1. In most physical systems, however, the interactions are short-ranged, hindering the emergence of such phases in one dimension. Here we use a one-dimensional trapped-ion quantum simulator to prepare states with long-range spin order that extends over the system size of up to 23 spins and is characteristic of the continuous symmetry-breaking phase of matter2,3. Our preparation relies on simultaneous control over an array of tightly focused individual addressing laser beams, generating long-range spin–spin interactions. We also observe a disordered phase with frustrated correlations. We further study the phases at different ranges of interaction and the out-of-equilibrium response to symmetry-breaking perturbations. This work opens an avenue to study new quantum phases and out-of-equilibrium dynamics in low-dimensional systems.

Suggested Citation

  • Lei Feng & Or Katz & Casey Haack & Mohammad Maghrebi & Alexey V. Gorshkov & Zhexuan Gong & Marko Cetina & Christopher Monroe, 2023. "Continuous symmetry breaking in a trapped-ion spin chain," Nature, Nature, vol. 623(7988), pages 713-717, November.
    • Handle: RePEc:nat:nature:v:623:y:2023:i:7988:d:10.1038_s41586-023-06656-7
    DOI: 10.1038/s41586-023-06656-7
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