Hai-Zhou Lu
Published 2018-12-18Version 1
The discovery of the quantum Hall effect in 2D systems opens the door to topological phases of matter. A quantum Hall effect in 3D is a long-sought phase of matter and has inspired many efforts and claims. In the perspective, we review our proposal that guarantees a 3D quantum Hall effect. The proposal employs the topologically-protected Fermi arcs and the "wormhole" tunneling via the Weyl nodes in a 3D topological semimetal. The 1D edge states in this 3D quantum Hall effect show an example of (d-2)-dimensional boundary states. Possible signatures of the 3D quantum Hall effect have been observed in the topological Dirac semimetals, but with many questions, which will attract more works to verify the mechanism and realize the 3D quantum Hall in the future.
Comments: An extended version based on a Perspective published on National Science Review
Journal: National Science Review, nwy082 (2018)
Theory for the charge-density-wave mechanism of the 3D quantum Hall effect
Perspectives on spintronic diodes
3D Quantum Hall Effect Manipulated by Chiral Landau Levels in Weyl Semimetals
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