Type-II Symmetry-Protected Topological Dirac Semimetals

Tay Rong Chang; Su Yang Xu; Daniel S. Sanchez; Wei Feng Tsai; Shin Ming Huang; Guoqing Chang; Chuang Han Hsu; Guang Bian; Ilya Belopolski; Zhi Ming Yu; Shengyuan A. Yang; Titus Neupert; Horng Tay Jeng; Hsin Lin; M. Zahid Hasan

doi:10.1103/PhysRevLett.119.026404

Type-II Symmetry-Protected Topological Dirac Semimetals

Tay Rong Chang, Su Yang Xu^*, Daniel S. Sanchez, Wei Feng Tsai, Shin Ming Huang, Guoqing Chang, Chuang Han Hsu, Guang Bian, Ilya Belopolski, Zhi Ming Yu, Shengyuan A. Yang, Titus Neupert, Horng Tay Jeng, Hsin Lin, M. Zahid Hasan

^*Corresponding author for this work

School of Physics

Research output: Contribution to journal › Article › peer-review

153 Citations (Scopus)

Abstract

The recent proposal of the type-II Weyl semimetal state has attracted significant interest. In this Letter, we propose the concept of the three-dimensional type-II Dirac fermion and theoretically identify this new symmetry-protected topological state in the large family of transition-metal icosagenides, MA3 (M=V, Nb, Ta; A=Al, Ga, In). We show that the VAl3 family features a pair of strongly Lorentz-violating type-II Dirac nodes and that each Dirac node can be split into four type-II Weyl nodes with chiral charge ±1 via symmetry breaking. Furthermore, we predict that the Landau level spectrum arising from the type-II Dirac fermions in VAl3 is distinct from that of known Dirac or Weyl semimetals. We also demonstrate a topological phase transition from a type-II Dirac semimetal to a quadratic Weyl semimetal or a topological crystalline insulator via crystalline distortions.

Original language	English
Article number	026404
Journal	Physical Review Letters
Volume	119
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevLett.119.026404
Publication status	Published - 14 Jul 2017

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title = "Type-II Symmetry-Protected Topological Dirac Semimetals",

abstract = "The recent proposal of the type-II Weyl semimetal state has attracted significant interest. In this Letter, we propose the concept of the three-dimensional type-II Dirac fermion and theoretically identify this new symmetry-protected topological state in the large family of transition-metal icosagenides, MA3 (M=V, Nb, Ta; A=Al, Ga, In). We show that the VAl3 family features a pair of strongly Lorentz-violating type-II Dirac nodes and that each Dirac node can be split into four type-II Weyl nodes with chiral charge ±1 via symmetry breaking. Furthermore, we predict that the Landau level spectrum arising from the type-II Dirac fermions in VAl3 is distinct from that of known Dirac or Weyl semimetals. We also demonstrate a topological phase transition from a type-II Dirac semimetal to a quadratic Weyl semimetal or a topological crystalline insulator via crystalline distortions.",

author = "Chang, {Tay Rong} and Xu, {Su Yang} and Sanchez, {Daniel S.} and Tsai, {Wei Feng} and Huang, {Shin Ming} and Guoqing Chang and Hsu, {Chuang Han} and Guang Bian and Ilya Belopolski and Yu, {Zhi Ming} and Yang, {Shengyuan A.} and Titus Neupert and Jeng, {Horng Tay} and Hsin Lin and Hasan, {M. Zahid}",

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doi = "10.1103/PhysRevLett.119.026404",

language = "English",

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AU - Chang, Tay Rong

AU - Xu, Su Yang

AU - Sanchez, Daniel S.

AU - Tsai, Wei Feng

AU - Huang, Shin Ming

AU - Chang, Guoqing

AU - Hsu, Chuang Han

AU - Bian, Guang

AU - Belopolski, Ilya

AU - Yu, Zhi Ming

AU - Yang, Shengyuan A.

AU - Neupert, Titus

AU - Jeng, Horng Tay

AU - Lin, Hsin

AU - Hasan, M. Zahid

PY - 2017/7/14

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N2 - The recent proposal of the type-II Weyl semimetal state has attracted significant interest. In this Letter, we propose the concept of the three-dimensional type-II Dirac fermion and theoretically identify this new symmetry-protected topological state in the large family of transition-metal icosagenides, MA3 (M=V, Nb, Ta; A=Al, Ga, In). We show that the VAl3 family features a pair of strongly Lorentz-violating type-II Dirac nodes and that each Dirac node can be split into four type-II Weyl nodes with chiral charge ±1 via symmetry breaking. Furthermore, we predict that the Landau level spectrum arising from the type-II Dirac fermions in VAl3 is distinct from that of known Dirac or Weyl semimetals. We also demonstrate a topological phase transition from a type-II Dirac semimetal to a quadratic Weyl semimetal or a topological crystalline insulator via crystalline distortions.

AB - The recent proposal of the type-II Weyl semimetal state has attracted significant interest. In this Letter, we propose the concept of the three-dimensional type-II Dirac fermion and theoretically identify this new symmetry-protected topological state in the large family of transition-metal icosagenides, MA3 (M=V, Nb, Ta; A=Al, Ga, In). We show that the VAl3 family features a pair of strongly Lorentz-violating type-II Dirac nodes and that each Dirac node can be split into four type-II Weyl nodes with chiral charge ±1 via symmetry breaking. Furthermore, we predict that the Landau level spectrum arising from the type-II Dirac fermions in VAl3 is distinct from that of known Dirac or Weyl semimetals. We also demonstrate a topological phase transition from a type-II Dirac semimetal to a quadratic Weyl semimetal or a topological crystalline insulator via crystalline distortions.

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Type-II Symmetry-Protected Topological Dirac Semimetals

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