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Paper detail

Spin-Chiral Bulk Fermi Surfaces of BiTeI Proven by Quantum Oscillations

We present the Fermi-surface map of the spin-chiral bulk states for the non-centrosymmetric semiconductor BiTeI using de Haas-van Alphen and Shubnikov-de Haas oscillations. We identify two distinct Fermi surfaces with a unique spindle-torus-type topology and the non-trivial Berry phases, confirming the spin chirality with oppositely circulating spin-texture. Near the quantum limit at high magnetic fields, we find a substantial Zeeman effect with an effective g-factor of ~ 60 for the Rashba-split Fermi surfaces. These findings provide clear evidence of strong Rashba and Zeeman coupling in the bulk states of BiTeI, suggesting that BiTeI is a good platform hosting the spin-polarized chiral states.

preprint2013arXivOpen access
Joonbum ParkE. KampertKyung-Hwan JinMan Jin EomJongmok OkE. S. ChoiF. Wolff-FabrisK. D. LeeN. HurJ. -S RhyeeY. J. JoSeung-Hoon JhiJun Sung Kim
cond-mat.str-elcond-mat.mtrl-sci
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Joonbum ParkE. KampertKyung-Hwan JinMan Jin EomJongmok OkE. S. ChoiF. Wolff-FabrisK. D. LeeN. HurJ. -S RhyeeY. J. JoSeung-Hoon JhiJun Sung Kim

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