Three-component fermions with surface Fermi arcs in tungsten carbide

J. Z. Ma; J. B. He; Y. F. Xu; B. Q. Lv; D. Chen; W. L. Zhu; S. Zhang; L. Y. Kong; X. Gao; L. Y. Rong; Y. B. Huang; P. Richard; C. Y. Xi; E. S. Choi; Y. Shao; Y. L. Wang; H. J. Gao; X. Dai; C. Fang; H. M. Weng; G. F. Chen; T. Qian; H. Ding

doi:10.1038/s41567-017-0021-8

Three-component fermions with surface Fermi arcs in tungsten carbide

J. Z. Ma, J. B. He, Y. F. Xu, B. Q. Lv, D. Chen, W. L. Zhu, S. Zhang, L. Y. Kong, X. Gao, L. Y. Rong, Y. B. Huang, P. Richard, C. Y. Xi, E. S. Choi, Y. Shao, Y. L. Wang, H. J. Gao, X. Dai, C. Fang, H. M. WengG. F. Chen^*, T. Qian, H. Ding

^*此作品的通讯作者

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116 引用（Scopus）

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Topological Dirac and Weyl semimetals not only host quasiparticles analogous to the elementary fermionic particles in high-energy physics, but also have a non-trivial band topology manifested by gapless surface states, which induce exotic surface Fermi arcs ^1,2 . Recent advances suggest new types of topological semimetal, in which spatial symmetries protect gapless electronic excitations without high-energy analogues ^3-11 . Here, using angle-resolved photoemission spectroscopy, we observe triply degenerate nodal points near the Fermi level of tungsten carbide with space group P 6 m 2 (no. 187), in which the low-energy quasiparticles are described as three-component fermions distinct from Dirac and Weyl fermions. We further observe topological surface states, whose constant-energy contours constitute pairs of 'Fermi arcs' connecting to the surface projections of the triply degenerate nodal points, proving the non-trivial topology of the newly identified semimetal state.

源语言	英语
页（从-至）	349-354
页数	6
期刊	Nature Physics
卷	14
期	4
DOI	https://doi.org/10.1038/s41567-017-0021-8
出版状态	已出版 - 1 4月 2018
已对外发布	是

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Ma, J. Z., He, J. B., Xu, Y. F., Lv, B. Q., Chen, D., Zhu, W. L., Zhang, S., Kong, L. Y., Gao, X., Rong, L. Y., Huang, Y. B., Richard, P., Xi, C. Y., Choi, E. S., Shao, Y., Wang, Y. L., Gao, H. J., Dai, X., Fang, C., ... Ding, H. (2018). Three-component fermions with surface Fermi arcs in tungsten carbide. Nature Physics, 14(4), 349-354. https://doi.org/10.1038/s41567-017-0021-8

@article{ce8dd174c5be4991b1732b08f647b75b,

title = "Three-component fermions with surface Fermi arcs in tungsten carbide",

abstract = " Topological Dirac and Weyl semimetals not only host quasiparticles analogous to the elementary fermionic particles in high-energy physics, but also have a non-trivial band topology manifested by gapless surface states, which induce exotic surface Fermi arcs 1,2 . Recent advances suggest new types of topological semimetal, in which spatial symmetries protect gapless electronic excitations without high-energy analogues 3-11 . Here, using angle-resolved photoemission spectroscopy, we observe triply degenerate nodal points near the Fermi level of tungsten carbide with space group P 6 m 2 (no. 187), in which the low-energy quasiparticles are described as three-component fermions distinct from Dirac and Weyl fermions. We further observe topological surface states, whose constant-energy contours constitute pairs of 'Fermi arcs' connecting to the surface projections of the triply degenerate nodal points, proving the non-trivial topology of the newly identified semimetal state.",

author = "Ma, {J. Z.} and He, {J. B.} and Xu, {Y. F.} and Lv, {B. Q.} and D. Chen and Zhu, {W. L.} and S. Zhang and Kong, {L. Y.} and X. Gao and Rong, {L. Y.} and Huang, {Y. B.} and P. Richard and Xi, {C. Y.} and Choi, {E. S.} and Y. Shao and Wang, {Y. L.} and Gao, {H. J.} and X. Dai and C. Fang and Weng, {H. M.} and Chen, {G. F.} and T. Qian and H. Ding",

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

year = "2018",

month = apr,

day = "1",

doi = "10.1038/s41567-017-0021-8",

language = "English",

volume = "14",

pages = "349--354",

journal = "Nature Physics",

issn = "1745-2473",

publisher = "Nature Publishing Group",

number = "4",

}

Ma, JZ, He, JB, Xu, YF, Lv, BQ, Chen, D, Zhu, WL, Zhang, S, Kong, LY, Gao, X, Rong, LY, Huang, YB, Richard, P, Xi, CY, Choi, ES, Shao, Y , Wang, YL, Gao, HJ, Dai, X, Fang, C, Weng, HM, Chen, GF, Qian, T & Ding, H 2018, 'Three-component fermions with surface Fermi arcs in tungsten carbide', Nature Physics, 卷 14, 号码 4, 页码 349-354. https://doi.org/10.1038/s41567-017-0021-8

TY - JOUR

T1 - Three-component fermions with surface Fermi arcs in tungsten carbide

AU - Ma, J. Z.

AU - He, J. B.

AU - Xu, Y. F.

AU - Lv, B. Q.

AU - Chen, D.

AU - Zhu, W. L.

AU - Zhang, S.

AU - Kong, L. Y.

AU - Gao, X.

AU - Rong, L. Y.

AU - Huang, Y. B.

AU - Richard, P.

AU - Xi, C. Y.

AU - Choi, E. S.

AU - Shao, Y.

AU - Wang, Y. L.

AU - Gao, H. J.

AU - Dai, X.

AU - Fang, C.

AU - Weng, H. M.

AU - Chen, G. F.

AU - Qian, T.

AU - Ding, H.

PY - 2018/4/1

Y1 - 2018/4/1

N2 - Topological Dirac and Weyl semimetals not only host quasiparticles analogous to the elementary fermionic particles in high-energy physics, but also have a non-trivial band topology manifested by gapless surface states, which induce exotic surface Fermi arcs 1,2 . Recent advances suggest new types of topological semimetal, in which spatial symmetries protect gapless electronic excitations without high-energy analogues 3-11 . Here, using angle-resolved photoemission spectroscopy, we observe triply degenerate nodal points near the Fermi level of tungsten carbide with space group P 6 m 2 (no. 187), in which the low-energy quasiparticles are described as three-component fermions distinct from Dirac and Weyl fermions. We further observe topological surface states, whose constant-energy contours constitute pairs of 'Fermi arcs' connecting to the surface projections of the triply degenerate nodal points, proving the non-trivial topology of the newly identified semimetal state.

AB - Topological Dirac and Weyl semimetals not only host quasiparticles analogous to the elementary fermionic particles in high-energy physics, but also have a non-trivial band topology manifested by gapless surface states, which induce exotic surface Fermi arcs 1,2 . Recent advances suggest new types of topological semimetal, in which spatial symmetries protect gapless electronic excitations without high-energy analogues 3-11 . Here, using angle-resolved photoemission spectroscopy, we observe triply degenerate nodal points near the Fermi level of tungsten carbide with space group P 6 m 2 (no. 187), in which the low-energy quasiparticles are described as three-component fermions distinct from Dirac and Weyl fermions. We further observe topological surface states, whose constant-energy contours constitute pairs of 'Fermi arcs' connecting to the surface projections of the triply degenerate nodal points, proving the non-trivial topology of the newly identified semimetal state.

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U2 - 10.1038/s41567-017-0021-8

DO - 10.1038/s41567-017-0021-8

M3 - Article

AN - SCOPUS:85044730175

SN - 1745-2473

VL - 14

SP - 349

EP - 354

JO - Nature Physics

JF - Nature Physics

IS - 4

ER -

Three-component fermions with surface Fermi arcs in tungsten carbide

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