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Hidden spin-orbital texture at the $$\overline{{{\Gamma }}}$$ Γ ¯ -located valence band maximum of a transition metal dichalcogenide semiconductor

Author

Listed:
  • Oliver J. Clark

    (Helmholtz-Zentrum Berlin für Materialien und Energie, Elektronenspeicherring BESSY II)

  • Oliver Dowinton

    (University of Manchester)

  • Mohammad Saeed Bahramy

    (University of Manchester)

  • Jaime Sánchez-Barriga

    (Helmholtz-Zentrum Berlin für Materialien und Energie, Elektronenspeicherring BESSY II
    IMDEA Nanoscience)

Abstract

Finding stimuli capable of driving an imbalance of spin-polarised electrons within a solid is the central challenge in the development of spintronic devices. However, without the aid of magnetism, routes towards this goal are highly constrained with only a few suitable pairings of compounds and driving mechanisms found to date. Here, through spin- and angle-resolved photoemission along with density functional theory, we establish how the p-derived bulk valence bands of semiconducting 1T-HfSe2 possess a local, ground-state spin texture spatially confined within each Se-sublayer due to strong sublayer-localised electric dipoles orientated along the c-axis. This hidden spin-polarisation manifests in a ‘coupled spin-orbital texture’ with in-equivalent contributions from the constituent p-orbitals. While the overall spin-orbital texture for each Se sublayer is in strict adherence to time-reversal symmetry (TRS), spin-orbital mixing terms with net polarisations at time-reversal invariant momenta are locally maintained. These apparent TRS-breaking contributions dominate, and can be selectively tuned between with a choice of linear light polarisation, facilitating the observation of pronounced spin-polarisations at the Brillouin zone centre for all kz. We discuss the implications for the generation of spin-polarised populations from 1T-structured transition metal dichalcogenides using a fixed energy, linearly polarised light source.

Suggested Citation

  • Oliver J. Clark & Oliver Dowinton & Mohammad Saeed Bahramy & Jaime Sánchez-Barriga, 2022. "Hidden spin-orbital texture at the $$\overline{{{\Gamma }}}$$ Γ ¯ -located valence band maximum of a transition metal dichalcogenide semiconductor," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-31539-2
    DOI: 10.1038/s41467-022-31539-2
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    References listed on IDEAS

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    1. Bohm-Jung Yang & Naoto Nagaosa, 2014. "Classification of stable three-dimensional Dirac semimetals with nontrivial topology," Nature Communications, Nature, vol. 5(1), pages 1-10, December.
    2. T. Dvir & F. Massee & L. Attias & M. Khodas & M. Aprili & C. H. L. Quay & H. Steinberg, 2018. "Spectroscopy of bulk and few-layer superconducting NbSe2 with van der Waals tunnel junctions," Nature Communications, Nature, vol. 9(1), pages 1-6, December.
    3. Wei Yao & Eryin Wang & Huaqing Huang & Ke Deng & Mingzhe Yan & Kenan Zhang & Koji Miyamoto & Taichi Okuda & Linfei Li & Yeliang Wang & Hongjun Gao & Chaoxing Liu & Wenhui Duan & Shuyun Zhou, 2017. "Direct observation of spin-layer locking by local Rashba effect in monolayer semiconducting PtSe2 film," Nature Communications, Nature, vol. 8(1), pages 1-6, April.
    4. L. Bawden & S. P. Cooil & F. Mazzola & J. M. Riley & L. J. Collins-McIntyre & V. Sunko & K. W. B. Hunvik & M. Leandersson & C. M. Polley & T. Balasubramanian & T. K. Kim & M. Hoesch & J. W. Wells & G., 2016. "Spin–valley locking in the normal state of a transition-metal dichalcogenide superconductor," Nature Communications, Nature, vol. 7(1), pages 1-6, September.
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