Observation of Unconventional Quantum Spin Textures in Topological Insulators
Lawrence Berkeley National Laboratory · Princeton University · +2 more institutions
Abstract
A topologically ordered material is characterized by a rare quantum organization of electrons that evades the conventional spontaneously broken symmetry-based classification of condensed matter. Exotic spin-transport phenomena, such as the dissipationless quantum spin Hall effect, have been speculated to originate from a topological order whose identification requires a spin-sensitive measurement, which does not exist to this date in any system. Using Mott polarimetry, we probed the spin degrees of freedom and demonstrated that topological quantum numbers are completely determined from spin texture-imaging measurements. Applying this method to Sb and Bi(1-x)Sb(x), we identified the origin of its topological…
Citation impact
- FWCI
- 83.36
- Percentile
- 100%
- References
- 26
Authors
13- DHDavid Hsieh
Lawrence Berkeley National Laboratory, Princeton University, University of Zurich, Paul Scherrer Institute
- YXY. Xia
Lawrence Berkeley National Laboratory, Princeton University, University of Zurich, Paul Scherrer Institute
- LAL. Andrew Wray
Lawrence Berkeley National Laboratory, Princeton University, University of Zurich, Paul Scherrer Institute
- DQDong Qian
Lawrence Berkeley National Laboratory, Princeton University, University of Zurich, Paul Scherrer Institute
- AKAmit Kumar Pal
Lawrence Berkeley National Laboratory, Princeton University, University of Zurich, Paul Scherrer Institute
Topics & keywords
- Topological insulator
- Physics
- Spin (aerodynamics)
- Topological order
- Topology (electrical circuits)
- Quantum spin liquid
- Quantum spin Hall effect
- Symmetry protected topological order
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