Weyl Semimetal in a Topological Insulator Multilayer
University of California, Santa Barbara · University of Waterloo
Abstract
We propose a simple realization of the three-dimensional (3D) Weyl semimetal phase, utilizing a multilayer structure, composed of identical thin films of a magnetically doped 3D topological insulator, separated by ordinary-insulator spacer layers. We show that the phase diagram of this system contains a Weyl semimetal phase of the simplest possible kind, with only two Dirac nodes of opposite chirality, separated in momentum space, in its band structure. This Weyl semimetal has a finite anomalous Hall conductivity and chiral edge states and occurs as an intermediate phase between an ordinary insulator and a 3D quantum anomalous Hall insulator. We find that the Weyl semimetal has a nonzero dc conductivity at…
Citation impact
- FWCI
- 44.00
- Percentile
- 100%
- References
- 25
Authors
2Topics & keywords
- Weyl semimetal
- Semimetal
- Condensed matter physics
- Topological insulator
- Physics
- Phase diagram
- Position and momentum space
- Insulator (electricity)