Dirac semimetal in β-CuI without surface Fermi arcs

Congcong Le; Xianxin Wu; Shengshan Qin; Yinxiang Li; Ronny Thomale; Fu Chun Zhang; Jiangping Hu

doi:10.1073/pnas.1803599115

Dirac semimetal in β-CuI without surface Fermi arcs

Congcong Le, Xianxin Wu^*, Shengshan Qin, Yinxiang Li, Ronny Thomale, Fu Chun Zhang, Jiangping Hu

^*Corresponding author for this work

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

37 Citations (Scopus)

Abstract

Anomalous surface states with Fermi arcs are commonly considered to be a fingerprint of Dirac semimetals (DSMs). In contrast to Weyl semimetals, however, Fermi arcs of DSMs are not topologically protected. Using first-principles calculations, we predict that β-cuprous iodide (β-CuI) is a peculiar DSM whose surface states form closed Fermi pockets instead of Fermi arcs. In such a fermiological Dirac semimetal, the deformation mechanism from Fermi arcs to Fermi pockets stems from a large cubic term preserving all crystal symmetries and from the small energy difference between the surface and bulk Dirac points. The cubic term in β-CuI, usually negligible in prototypical DSMs, becomes relevant because of the particular crystal structure. As such, we establish a concrete material example manifesting the lack of topological protection for surface Fermi arcs in DSMs.

Original language	English
Pages (from-to)	8311-8315
Number of pages	5
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	115
Issue number	33
DOIs	https://doi.org/10.1073/pnas.1803599115
Publication status	Published - 14 Aug 2018
Externally published	Yes

Keywords

Dirac semimetals
Fermi arcs
Topological insulator
Weyl semimetals

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10.1073/pnas.1803599115

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title = "Dirac semimetal in β-CuI without surface Fermi arcs",

abstract = "Anomalous surface states with Fermi arcs are commonly considered to be a fingerprint of Dirac semimetals (DSMs). In contrast to Weyl semimetals, however, Fermi arcs of DSMs are not topologically protected. Using first-principles calculations, we predict that β-cuprous iodide (β-CuI) is a peculiar DSM whose surface states form closed Fermi pockets instead of Fermi arcs. In such a fermiological Dirac semimetal, the deformation mechanism from Fermi arcs to Fermi pockets stems from a large cubic term preserving all crystal symmetries and from the small energy difference between the surface and bulk Dirac points. The cubic term in β-CuI, usually negligible in prototypical DSMs, becomes relevant because of the particular crystal structure. As such, we establish a concrete material example manifesting the lack of topological protection for surface Fermi arcs in DSMs.",

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author = "Congcong Le and Xianxin Wu and Shengshan Qin and Yinxiang Li and Ronny Thomale and Zhang, {Fu Chun} and Jiangping Hu",

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AU - Le, Congcong

AU - Wu, Xianxin

AU - Qin, Shengshan

AU - Li, Yinxiang

AU - Thomale, Ronny

AU - Zhang, Fu Chun

AU - Hu, Jiangping

PY - 2018/8/14

Y1 - 2018/8/14

N2 - Anomalous surface states with Fermi arcs are commonly considered to be a fingerprint of Dirac semimetals (DSMs). In contrast to Weyl semimetals, however, Fermi arcs of DSMs are not topologically protected. Using first-principles calculations, we predict that β-cuprous iodide (β-CuI) is a peculiar DSM whose surface states form closed Fermi pockets instead of Fermi arcs. In such a fermiological Dirac semimetal, the deformation mechanism from Fermi arcs to Fermi pockets stems from a large cubic term preserving all crystal symmetries and from the small energy difference between the surface and bulk Dirac points. The cubic term in β-CuI, usually negligible in prototypical DSMs, becomes relevant because of the particular crystal structure. As such, we establish a concrete material example manifesting the lack of topological protection for surface Fermi arcs in DSMs.

AB - Anomalous surface states with Fermi arcs are commonly considered to be a fingerprint of Dirac semimetals (DSMs). In contrast to Weyl semimetals, however, Fermi arcs of DSMs are not topologically protected. Using first-principles calculations, we predict that β-cuprous iodide (β-CuI) is a peculiar DSM whose surface states form closed Fermi pockets instead of Fermi arcs. In such a fermiological Dirac semimetal, the deformation mechanism from Fermi arcs to Fermi pockets stems from a large cubic term preserving all crystal symmetries and from the small energy difference between the surface and bulk Dirac points. The cubic term in β-CuI, usually negligible in prototypical DSMs, becomes relevant because of the particular crystal structure. As such, we establish a concrete material example manifesting the lack of topological protection for surface Fermi arcs in DSMs.

KW - Dirac semimetals

KW - Fermi arcs

KW - Topological insulator

KW - Weyl semimetals

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Dirac semimetal in β-CuI without surface Fermi arcs

Abstract

Keywords

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