Visualizing Quantum Anomalous Hall States at the atomic scale with STM Landau Level Spectroscopy

Yi Xue Chong; Xiaolong Liu; Rahul Sharma; Andrey Kostin; Genda Gu; Kazuhiro Fujita; James C Davis; Peter Oliver Sprau

Visualizing Quantum Anomalous Hall States at the atomic scale with STM Landau Level Spectroscopy

ORAL

Abstract

The quantum anomalous Hall (QAH) effect appears in ferromagnetic topological insulators (FMTIs) when a Dirac mass gap opens in the spectrum of the topological surface states (SSs). Although the mean mass gap can exceed 28 meV (∼320 K), the QAH effect is frequently only detectable at temperatures below 1 K. Using Landau level spectroscopic imaging, we compare the electronic structure of FMTI Cr_0.08(Bi_0.1Sb_0.9)_1.92Te₃ to that of its nonmagnetic parent (Bi_0.1Sb_0.9)₂Te₃ to find electrostatic and magnetic disorders conspire to drastically suppress the minimum mass gap to below 100 μeV for nanoscale regions separated by <1 μm. This fundamentally limits QAH in Sb₂Te₃-based FMTI materials to very low temperatures.

March 17, 2021, 4:36 PM – March 17, 2021, 4:48 PM

Presenters

Yi Xue Chong

Cornell University, Physics, Cornell University

Authors

Yi Xue Chong

Cornell University, Physics, Cornell University
Xiaolong Liu

Cornell University, Physics, Cornell University
Rahul Sharma

Cornell University, Quantum Materials Center, University of Maryland; Laboratory of Atomic and Solid States Physics, Cornell University, University of Maryland, College Park
Andrey Kostin

Cornell University, Laboratory of Atomic and Solid State Physics, Cornell University
Genda Gu

Brookhaven National Laboratory, Brookhaven National Laboratories, Brookhaven national lab, Brookhaven National Labs, Condensed Matter Physics and Materials Science Department, Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, CMPMS, Brookhaven National Laboratory, Brookhaven National Lab, COndensed Matter Physics and Materials Science Department, Brookhaven National Laboratory
Kazuhiro Fujita

CMPMS, Brookhaven National Laboratory, Brookhaven National Laboratory
James C Davis

Cornell University, Department of Physics, University of Oxford, University College Cork, Laboratory of Atomic and Solid State Physics, Cornell University; Department of Physics, University College Cork; Max-Planck Institute for Chemical Physics of Solids; Clarend
Peter Oliver Sprau

University of California, San Diego, Advanced Development Center, ASML, Advanced Development Center, ASML; Laboratory of Atomic and Solid State Physics, Cornell University