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Manipulation of fractionalized charge in the metastable topologically entangled state of a doped Wigner crystal

Author

Listed:
  • Anze Mraz

    (Jozef Stefan Institute
    University of Ljubljana)

  • Michele Diego

    (Jozef Stefan Institute)

  • Andrej Kranjec

    (Jozef Stefan Institute)

  • Jaka Vodeb

    (Jozef Stefan Institute)

  • Peter Karpov

    (Ludwig Maximilian University)

  • Yaroslav Gerasimenko

    (Jozef Stefan Institute
    CENN Nanocenter)

  • Jan Ravnik

    (Jozef Stefan Institute)

  • Yevhenii Vaskivskyi

    (Jozef Stefan Institute
    University of Ljubljana)

  • Rok Venturini

    (Jozef Stefan Institute
    University of Ljubljana)

  • Viktor Kabanov

    (Jozef Stefan Institute)

  • Benjamin Lipovšek

    (University of Ljubljana)

  • Marko Topič

    (University of Ljubljana)

  • Igor Vaskivskyi

    (Jozef Stefan Institute
    CENN Nanocenter)

  • Dragan Mihailovic

    (Jozef Stefan Institute
    CENN Nanocenter
    University of Ljubljana)

Abstract

Metastability of many-body quantum states is rare and still poorly understood. An exceptional example is the low-temperature metallic state of the layered dichalcogenide 1T-TaS2 in which electronic order is frozen after external excitation. Here we visualize the microscopic dynamics of injected charges in the metastable state using a multiple-tip scanning tunnelling microscope. We observe non-thermal formation of a metastable network of dislocations interconnected by domain walls, that leads to macroscopic robustness of the state to external thermal perturbations, such as small applied currents. With higher currents, we observe annihilation of dislocations following topological rules, accompanied with a change of macroscopic electrical resistance. Modelling carrier injection into a Wigner crystal reveals the origin of formation of fractionalized, topologically entangled networks, which defines the spatial fabric through which single particle excitations propagate. The possibility of manipulating topological entanglement of such networks suggests the way forward in the search for elusive metastable states in quantum many body systems.

Suggested Citation

  • Anze Mraz & Michele Diego & Andrej Kranjec & Jaka Vodeb & Peter Karpov & Yaroslav Gerasimenko & Jan Ravnik & Yevhenii Vaskivskyi & Rok Venturini & Viktor Kabanov & Benjamin Lipovšek & Marko Topič & Ig, 2023. "Manipulation of fractionalized charge in the metastable topologically entangled state of a doped Wigner crystal," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-43800-3
    DOI: 10.1038/s41467-023-43800-3
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    References listed on IDEAS

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    1. Jaka Vodeb & Michele Diego & Yevhenii Vaskivskyi & Leonard Logaric & Yaroslav Gerasimenko & Viktor Kabanov & Benjamin Lipovsek & Marko Topic & Dragan Mihailovic, 2024. "Non-equilibrium quantum domain reconfiguration dynamics in a two-dimensional electronic crystal and a quantum annealer," Nature Communications, Nature, vol. 15(1), pages 1-7, December.

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