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Helicity dependent photocurrent in electrically gated (Bi1−x Sb x )2Te3 thin films

Author

Listed:
  • Yu Pan

    (The Pennsylvania State University)

  • Qing-Ze Wang

    (The Pennsylvania State University)

  • Andrew L. Yeats

    (University of Chicago)

  • Timothy Pillsbury

    (The Pennsylvania State University)

  • Thomas C. Flanagan

    (The Pennsylvania State University)

  • Anthony Richardella

    (The Pennsylvania State University)

  • Haijun Zhang

    (Nanjing University)

  • David D. Awschalom

    (University of Chicago)

  • Chao-Xing Liu

    (The Pennsylvania State University)

  • Nitin Samarth

    (The Pennsylvania State University)

Abstract

Circularly polarized photons are known to generate a directional helicity-dependent photocurrent in three-dimensional topological insulators at room temperature. Surprisingly, the phenomenon is readily observed at photon energies that excite electrons to states far above the spin-momentum locked Dirac cone and the underlying mechanism for the helicity-dependent photocurrent is still not understood. Here we show a comprehensive study of the helicity-dependent photocurrent in (Bi1−x Sb x )2Te3 thin films as a function of the incidence angle of the optical excitation, its wavelength and the gate-tuned chemical potential. Our observations allow us to unambiguously identify the circular photo-galvanic effect as the dominant mechanism for the helicity-dependent photocurrent. Additionally, we use an analytical model to relate the directional nature of the photocurrent to asymmetric optical transitions between the topological surface states and bulk bands. The insights we obtain are important for engineering opto-spintronic devices that rely on optical steering of spin and charge currents.

Suggested Citation

  • Yu Pan & Qing-Ze Wang & Andrew L. Yeats & Timothy Pillsbury & Thomas C. Flanagan & Anthony Richardella & Haijun Zhang & David D. Awschalom & Chao-Xing Liu & Nitin Samarth, 2017. "Helicity dependent photocurrent in electrically gated (Bi1−x Sb x )2Te3 thin films," Nature Communications, Nature, vol. 8(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00711-4
    DOI: 10.1038/s41467-017-00711-4
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    Cited by:

    1. Haozhe Yang & Eva Schmoranzerová & Pyunghwa Jang & Jayshankar Nath & Thomas Guillet & Isabelle Joumard & Stéphane Auffret & Matthieu Jamet & Petr Němec & Gilles Gaudin & Ioan-Mihai Miron, 2022. "Helicity dependent photoresistance measurement vs. beam-shift thermal gradient," Nature Communications, Nature, vol. 13(1), pages 1-7, December.

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