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Charge state-dependent symmetry breaking of atomic defects in transition metal dichalcogenides

Author

Listed:
  • Feifei Xiang

    (Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Lysander Huberich

    (Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Preston A. Vargas

    (University of Florida)

  • Riccardo Torsi

    (The Pennsylvania State University)

  • Jonas Allerbeck

    (Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Anne Marie Z. Tan

    (University of Florida
    Agency for Science, Technology and Research (A*STAR))

  • Chengye Dong

    (The Pennsylvania State University)

  • Pascal Ruffieux

    (Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Roman Fasel

    (Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Oliver Gröning

    (Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Yu-Chuan Lin

    (The Pennsylvania State University
    National Yang Ming Chiao Tung University)

  • Richard G. Hennig

    (University of Florida)

  • Joshua A. Robinson

    (The Pennsylvania State University
    The Pennsylvania State University
    The Pennsylvania State University)

  • Bruno Schuler

    (Empa – Swiss Federal Laboratories for Materials Science and Technology)

Abstract

The functionality of atomic quantum emitters is intrinsically linked to their host lattice coordination. Structural distortions that spontaneously break the lattice symmetry strongly impact their optical emission properties and spin-photon interface. Here we report on the direct imaging of charge state-dependent symmetry breaking of two prototypical atomic quantum emitters in mono- and bilayer MoS2 by scanning tunneling microscopy (STM) and non-contact atomic force microscopy (nc-AFM). By changing the built-in substrate chemical potential, different charge states of sulfur vacancies (VacS) and substitutional rhenium dopants (ReMo) can be stabilized. Vac $${}_{{{{{{{{\rm{S}}}}}}}}}^{-1}$$ S − 1 as well as Re $${}_{{{{{{{{\rm{Mo}}}}}}}}}^{0}$$ Mo 0 and Re $${}_{{{{{{{{\rm{Mo}}}}}}}}}^{-1}$$ Mo − 1 exhibit local lattice distortions and symmetry-broken defect orbitals attributed to a Jahn-Teller effect (JTE) and pseudo-JTE, respectively. By mapping the electronic and geometric structure of single point defects, we disentangle the effects of spatial averaging, charge multistability, configurational dynamics, and external perturbations that often mask the presence of local symmetry breaking.

Suggested Citation

  • Feifei Xiang & Lysander Huberich & Preston A. Vargas & Riccardo Torsi & Jonas Allerbeck & Anne Marie Z. Tan & Chengye Dong & Pascal Ruffieux & Roman Fasel & Oliver Gröning & Yu-Chuan Lin & Richard G. , 2024. "Charge state-dependent symmetry breaking of atomic defects in transition metal dichalcogenides," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-47039-4
    DOI: 10.1038/s41467-024-47039-4
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