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Polar and phase domain walls with conducting interfacial states in a Weyl semimetal MoTe2

Author

Listed:
  • Fei-Ting Huang

    (Rutgers University)

  • Seong Joon Lim

    (Rutgers University)

  • Sobhit Singh

    (Rutgers University)

  • Jinwoong Kim

    (Rutgers University)

  • Lunyong Zhang

    (Pohang University of Science and Technology)

  • Jae-Wook Kim

    (Rutgers University)

  • Ming-Wen Chu

    (National Taiwan University)

  • Karin M. Rabe

    (Rutgers University)

  • David Vanderbilt

    (Rutgers University)

  • Sang-Wook Cheong

    (Rutgers University)

Abstract

Much of the dramatic growth in research on topological materials has focused on topologically protected surface states. While the domain walls of topological materials such as Weyl semimetals with broken inversion or time-reversal symmetry can provide a hunting ground for exploring topological interfacial states, such investigations have received little attention to date. Here, utilizing in-situ cryogenic transmission electron microscopy combined with first-principles calculations, we discover intriguing domain-wall structures in MoTe2, both between polar variants of the low-temperature(T) Weyl phase, and between this and the high-T higher-order topological phase. We demonstrate how polar domain walls can be manipulated with electron beams and show that phase domain walls tend to form superlattice-like structures along the c axis. Scanning tunneling microscopy indicates a possible signature of a conducting hinge state at phase domain walls. Our results open avenues for investigating topological interfacial states and unveiling multifunctional aspects of domain walls in topological materials.

Suggested Citation

  • Fei-Ting Huang & Seong Joon Lim & Sobhit Singh & Jinwoong Kim & Lunyong Zhang & Jae-Wook Kim & Ming-Wen Chu & Karin M. Rabe & David Vanderbilt & Sang-Wook Cheong, 2019. "Polar and phase domain walls with conducting interfacial states in a Weyl semimetal MoTe2," Nature Communications, Nature, vol. 10(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-11949-5
    DOI: 10.1038/s41467-019-11949-5
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    Cited by:

    1. Chun-Guang Chu & Jing-Jing Chen & An-Qi Wang & Zhen-Bing Tan & Cai-Zhen Li & Chuan Li & Alexander Brinkman & Peng-Zhan Xiang & Na Li & Zhen-Cun Pan & Hai-Zhou Lu & Dapeng Yu & Zhi-Min Liao, 2023. "Broad and colossal edge supercurrent in Dirac semimetal Cd3As2 Josephson junctions," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    2. Kuan-Sen Lin & Giandomenico Palumbo & Zhaopeng Guo & Yoonseok Hwang & Jeremy Blackburn & Daniel P. Shoemaker & Fahad Mahmood & Zhijun Wang & Gregory A. Fiete & Benjamin J. Wieder & Barry Bradlyn, 2024. "Spin-resolved topology and partial axion angles in three-dimensional insulators," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    3. Frank Schindler & Stepan S. Tsirkin & Titus Neupert & B. Andrei Bernevig & Benjamin J. Wieder, 2022. "Topological zero-dimensional defect and flux states in three-dimensional insulators," Nature Communications, Nature, vol. 13(1), pages 1-18, December.
    4. James L. Hart & Lopa Bhatt & Yanbing Zhu & Myung-Geun Han & Elisabeth Bianco & Shunran Li & David J. Hynek & John A. Schneeloch & Yu Tao & Despina Louca & Peijun Guo & Yimei Zhu & Felipe Jornada & Eva, 2023. "Emergent layer stacking arrangements in c-axis confined MoTe2," Nature Communications, Nature, vol. 14(1), pages 1-9, December.

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