Signature of type-II Weyl semimetal phase in MoTe 2

J. Jiang; Z. K. Liu; Y. Sun; H. F. Yang; C. R. Rajamathi; Y. P. Qi; L. X. Yang; C. Chen; H. Peng; C. C. Hwang; S. Z. Sun; S. K. Mo; I. Vobornik; J. Fujii; S. S.P. Parkin; C. Felser; B. H. Yan; Y. L. Chen

doi:10.1038/ncomms13973

Signature of type-II Weyl semimetal phase in MoTe 2

J. Jiang, Z. K. Liu, Y. Sun, H. F. Yang, C. R. Rajamathi, Y. P. Qi, L. X. Yang, C. Chen, H. Peng, C. C. Hwang, S. Z. Sun, S. K. Mo, I. Vobornik, J. Fujii, S. S.P. Parkin, C. Felser, B. H. Yan, Y. L. Chen

Physics

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

395 Scopus citations

Abstract

Topological Weyl semimetal (TWS), a new state of quantum matter, has sparked enormous research interest recently. Possessing unique Weyl fermions in the bulk and Fermi arcs on the surface, TWSs offer a rare platform for realizing many exotic physical phenomena. TWSs can be classified into type-I that respect Lorentz symmetry and type-II that do not. Here, we directly visualize the electronic structure of MoTe 2, a recently proposed type-II TWS. Using angle-resolved photoemission spectroscopy (ARPES), we unravel the unique surface Fermi arcs, in good agreement with our ab initio calculations that have nontrivial topological nature. Our work not only leads to new understandings of the unusual properties discovered in this family of compounds, but also allows for the further exploration of exotic properties and practical applications of type-II TWSs, as well as the interplay between superconductivity (MoTe 2 was discovered to be superconducting recently) and their topological order.

Original language	English (US)
Article number	13973
Journal	Nature communications
Volume	8
DOIs	https://doi.org/10.1038/ncomms13973
State	Published - Jan 13 2017

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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title = "Signature of type-II Weyl semimetal phase in MoTe 2",

abstract = "Topological Weyl semimetal (TWS), a new state of quantum matter, has sparked enormous research interest recently. Possessing unique Weyl fermions in the bulk and Fermi arcs on the surface, TWSs offer a rare platform for realizing many exotic physical phenomena. TWSs can be classified into type-I that respect Lorentz symmetry and type-II that do not. Here, we directly visualize the electronic structure of MoTe 2, a recently proposed type-II TWS. Using angle-resolved photoemission spectroscopy (ARPES), we unravel the unique surface Fermi arcs, in good agreement with our ab initio calculations that have nontrivial topological nature. Our work not only leads to new understandings of the unusual properties discovered in this family of compounds, but also allows for the further exploration of exotic properties and practical applications of type-II TWSs, as well as the interplay between superconductivity (MoTe 2 was discovered to be superconducting recently) and their topological order.",

author = "J. Jiang and Liu, {Z. K.} and Y. Sun and Yang, {H. F.} and Rajamathi, {C. R.} and Qi, {Y. P.} and Yang, {L. X.} and C. Chen and H. Peng and Hwang, {C. C.} and Sun, {S. Z.} and Mo, {S. K.} and I. Vobornik and J. Fujii and Parkin, {S. S.P.} and C. Felser and Yan, {B. H.} and Chen, {Y. L.}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2017.",

year = "2017",

month = jan,

day = "13",

doi = "10.1038/ncomms13973",

language = "English (US)",

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T1 - Signature of type-II Weyl semimetal phase in MoTe 2

AU - Jiang, J.

AU - Liu, Z. K.

AU - Sun, Y.

AU - Yang, H. F.

AU - Rajamathi, C. R.

AU - Qi, Y. P.

AU - Yang, L. X.

AU - Chen, C.

AU - Peng, H.

AU - Hwang, C. C.

AU - Sun, S. Z.

AU - Mo, S. K.

AU - Vobornik, I.

AU - Fujii, J.

AU - Parkin, S. S.P.

AU - Felser, C.

AU - Yan, B. H.

AU - Chen, Y. L.

PY - 2017/1/13

Y1 - 2017/1/13

N2 - Topological Weyl semimetal (TWS), a new state of quantum matter, has sparked enormous research interest recently. Possessing unique Weyl fermions in the bulk and Fermi arcs on the surface, TWSs offer a rare platform for realizing many exotic physical phenomena. TWSs can be classified into type-I that respect Lorentz symmetry and type-II that do not. Here, we directly visualize the electronic structure of MoTe 2, a recently proposed type-II TWS. Using angle-resolved photoemission spectroscopy (ARPES), we unravel the unique surface Fermi arcs, in good agreement with our ab initio calculations that have nontrivial topological nature. Our work not only leads to new understandings of the unusual properties discovered in this family of compounds, but also allows for the further exploration of exotic properties and practical applications of type-II TWSs, as well as the interplay between superconductivity (MoTe 2 was discovered to be superconducting recently) and their topological order.

AB - Topological Weyl semimetal (TWS), a new state of quantum matter, has sparked enormous research interest recently. Possessing unique Weyl fermions in the bulk and Fermi arcs on the surface, TWSs offer a rare platform for realizing many exotic physical phenomena. TWSs can be classified into type-I that respect Lorentz symmetry and type-II that do not. Here, we directly visualize the electronic structure of MoTe 2, a recently proposed type-II TWS. Using angle-resolved photoemission spectroscopy (ARPES), we unravel the unique surface Fermi arcs, in good agreement with our ab initio calculations that have nontrivial topological nature. Our work not only leads to new understandings of the unusual properties discovered in this family of compounds, but also allows for the further exploration of exotic properties and practical applications of type-II TWSs, as well as the interplay between superconductivity (MoTe 2 was discovered to be superconducting recently) and their topological order.

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Signature of type-II Weyl semimetal phase in MoTe 2

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