Chern Semimetal and the Quantized Anomalous Hall Effect in HgCr 2 Se 4
Institute of Physics · Chinese Academy of Sciences
Abstract
In 3D momentum space, a topological phase boundary separating the Chern insulating layers from normal insulating layers may exist, where the gap must be closed, resulting in a "Chern semimetal" state with topologically unavoidable band crossings at the Fermi level. This state is a condensed-matter realization of Weyl fermions in (3+1)D, and should exhibit remarkable features, such as magnetic monopoles and Fermi arcs. Here we predict, based on first principles calculations, that such a novel quantum state can be realized in a known ferromagnetic compound HgCr2Se4, with a single pair of Weyl fermions separated in momentum space. The quantum Hall effect without an external magnetic field can be achieved in its…
Citation impact
- FWCI
- 23.10
- Percentile
- 100%
- References
- 32
Authors
5- GXGang XuCorresponding
Institute of Physics, Chinese Academy of Sciences
- HWHongming Weng
Institute of Physics, Chinese Academy of Sciences
- ZWZhijun Wang
Institute of Physics, Chinese Academy of Sciences
- XDXi Dai
Chinese Academy of Sciences, Institute of Physics
- ZFZhong Fang
Institute of Physics, Chinese Academy of Sciences
Topics & keywords
- Physics
- Fermion
- Position and momentum space
- Weyl semimetal
- Condensed matter physics
- Fermi surface
- Boundary (topology)
- Realization (probability)