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Breaking through the Mermin-Wagner limit in 2D van der Waals magnets

Author

Listed:
  • Sarah Jenkins

    (University of York
    Johannes Gutenberg Universität
    Universität Duisburg-Essen)

  • Levente Rózsa

    (Universität Konstanz)

  • Unai Atxitia

    (Freie Universität Berlin
    CSIC)

  • Richard F. L. Evans

    (University of York)

  • Kostya S. Novoselov

    (National University of Singapore)

  • Elton J. G. Santos

    (The University of Edinburgh
    20018 Donostia-San Sebastián
    The University of Edinburgh)

Abstract

The Mermin-Wagner theorem states that long-range magnetic order does not exist in one- (1D) or two-dimensional (2D) isotropic magnets with short-ranged interactions. Here we show that in finite-size 2D van der Waals magnets typically found in lab setups (within millimetres), short-range interactions can be large enough to allow the stabilisation of magnetic order at finite temperatures without any magnetic anisotropy. We demonstrate that magnetic ordering can be created in 2D flakes independent of the lattice symmetry due to the intrinsic nature of the spin exchange interactions and finite-size effects. Surprisingly we find that the crossover temperature, where the intrinsic magnetisation changes from superparamagnetic to a completely disordered paramagnetic regime, is weakly dependent on the system length, requiring giant sizes (e.g., of the order of the observable universe ~ 1026 m) to observe the vanishing of the magnetic order as expected from the Mermin-Wagner theorem. Our findings indicate exchange interactions as the main ingredient for 2D magnetism.

Suggested Citation

  • Sarah Jenkins & Levente Rózsa & Unai Atxitia & Richard F. L. Evans & Kostya S. Novoselov & Elton J. G. Santos, 2022. "Breaking through the Mermin-Wagner limit in 2D van der Waals magnets," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-34389-0
    DOI: 10.1038/s41467-022-34389-0
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    References listed on IDEAS

    as
    1. Maciej Da̧browski & Shi Guo & Mara Strungaru & Paul S. Keatley & Freddie Withers & Elton J. G. Santos & Robert J. Hicken, 2022. "All-optical control of spin in a 2D van der Waals magnet," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
    2. Mathias Augustin & Sarah Jenkins & Richard F. L. Evans & Kostya S. Novoselov & Elton J. G. Santos, 2021. "Properties and dynamics of meron topological spin textures in the two-dimensional magnet CrCl3," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    3. Bevin Huang & Genevieve Clark & Efrén Navarro-Moratalla & Dahlia R. Klein & Ran Cheng & Kyle L. Seyler & Ding Zhong & Emma Schmidgall & Michael A. McGuire & David H. Cobden & Wang Yao & Di Xiao & Pabl, 2017. "Layer-dependent ferromagnetism in a van der Waals crystal down to the monolayer limit," Nature, Nature, vol. 546(7657), pages 270-273, June.
    4. Cheng Gong & Lin Li & Zhenglu Li & Huiwen Ji & Alex Stern & Yang Xia & Ting Cao & Wei Bao & Chenzhe Wang & Yuan Wang & Z. Q. Qiu & R. J. Cava & Steven G. Louie & Jing Xia & Xiang Zhang, 2017. "Discovery of intrinsic ferromagnetism in two-dimensional van der Waals crystals," Nature, Nature, vol. 546(7657), pages 265-269, June.
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    1. Maya Khela & Maciej Da̧browski & Safe Khan & Paul S. Keatley & Ivan Verzhbitskiy & Goki Eda & Robert J. Hicken & Hidekazu Kurebayashi & Elton J. G. Santos, 2023. "Laser-induced topological spin switching in a 2D van der Waals magnet," Nature Communications, Nature, vol. 14(1), pages 1-9, December.

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