Journal
SCIENTIFIC REPORTS
Volume 11, Issue 1, Pages -Publisher
NATURE RESEARCH
DOI: 10.1038/s41598-021-87780-0
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The study reveals unexpected Chiral anomaly-like features in the entire TI state range of Bi1-xSbx alloy, indicating the existence of a field induced WSM state in a broader x range, not just limited to the topological transition near x = 0.03.
Bi1-xSbx is a topological insulator (TI) for x approximate to 0.03-0.20. Close to the Topological phase transition at x = 0.03, a magnetic field induced Weyl semi- metal (WSM) state is stabilized due to the splitting of the Dirac cone into two Weyl cones of opposite chirality. A signature of the Weyl state is the observation of a Chiral anomaly [negative longitudinal magnetoresistance (LMR)] and a violation of the Ohm's law (non-linear I-V). We report the unexpected discovery of Chiral anomaly-like features in the whole range ( x = 0.032, 0.072, 0.16) of the TI state. This points to a field induced WSM state in an extended x range and not just near the topological transition at x = 0.03. Surprisingly, the strongest Weyl phase is found at x = 0.16 with a non-saturating negative LMR much larger than observed for x = 0.03. The negative LMR vanishes rapidly with increasing angle between B and I. Additionally, non-linear I-V is found for x = 0.16 indicating a violation of Ohm's law. This unexpected observation of a strong Weyl state in the whole TI regime in Bi1-xSbx points to a gap in our understanding of the detailed crystal and electronic structure evolution in this alloy system.
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