Experimental evidence of monolayer AlB2 with symmetry-protected Dirac cones

Daiyu Geng; Kejun Yu; Shaosheng Yue; Jin Cao; Wenbin Li; Dashuai Ma; Chaoxi Cui; Masashi Arita; Shiv Kumar; Eike F. Schwier; Kenya Shimada; Peng Cheng; Lan Chen; Kehui Wu; Yugui Yao; Baojie Feng

doi:10.1103/PhysRevB.101.161407

Experimental evidence of monolayer AlB2 with symmetry-protected Dirac cones

Daiyu Geng, Kejun Yu, Shaosheng Yue, Jin Cao, Wenbin Li, Dashuai Ma, Chaoxi Cui, Masashi Arita, Shiv Kumar, Eike F. Schwier, Kenya Shimada, Peng Cheng, Lan Chen, Kehui Wu, Yugui Yao, Baojie Feng

物理学院

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23 引用（Scopus）

摘要

Monolayer AlB2 is composed of two atomic layers: honeycomb borophene and triangular aluminum. In contrast with the bulk phase, monolayer AlB2 is predicted to be a superconductor with a high critical temperature. Here, we demonstrate that monolayer AlB2 can be synthesized on Al(111) via molecular beam epitaxy. Our theoretical calculations revealed that the monolayer AlB2 hosts several Dirac cones along the Γ-M and Γ-K directions; these Dirac cones are protected by crystal symmetries and are thus resistant to external perturbations. The extraordinary electronic structure of the monolayer AlB2 was confirmed via angle-resolved photoemission spectroscopy measurements. These results are likely to stimulate further research interest to explore the exotic properties arising from the interplay of Dirac fermions and superconductivity in two-dimensional materials.

源语言	英语
文章编号	161407
期刊	Physical Review B
卷	101
期	16
DOI	https://doi.org/10.1103/PhysRevB.101.161407
出版状态	已出版 - 15 4月 2020

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abstract = "Monolayer AlB2 is composed of two atomic layers: honeycomb borophene and triangular aluminum. In contrast with the bulk phase, monolayer AlB2 is predicted to be a superconductor with a high critical temperature. Here, we demonstrate that monolayer AlB2 can be synthesized on Al(111) via molecular beam epitaxy. Our theoretical calculations revealed that the monolayer AlB2 hosts several Dirac cones along the Γ-M and Γ-K directions; these Dirac cones are protected by crystal symmetries and are thus resistant to external perturbations. The extraordinary electronic structure of the monolayer AlB2 was confirmed via angle-resolved photoemission spectroscopy measurements. These results are likely to stimulate further research interest to explore the exotic properties arising from the interplay of Dirac fermions and superconductivity in two-dimensional materials.",

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T1 - Experimental evidence of monolayer AlB2 with symmetry-protected Dirac cones

AU - Geng, Daiyu

AU - Yu, Kejun

AU - Yue, Shaosheng

AU - Cao, Jin

AU - Li, Wenbin

AU - Ma, Dashuai

AU - Cui, Chaoxi

AU - Arita, Masashi

AU - Kumar, Shiv

AU - Schwier, Eike F.

AU - Shimada, Kenya

AU - Cheng, Peng

AU - Chen, Lan

AU - Wu, Kehui

AU - Yao, Yugui

AU - Feng, Baojie

PY - 2020/4/15

Y1 - 2020/4/15

N2 - Monolayer AlB2 is composed of two atomic layers: honeycomb borophene and triangular aluminum. In contrast with the bulk phase, monolayer AlB2 is predicted to be a superconductor with a high critical temperature. Here, we demonstrate that monolayer AlB2 can be synthesized on Al(111) via molecular beam epitaxy. Our theoretical calculations revealed that the monolayer AlB2 hosts several Dirac cones along the Γ-M and Γ-K directions; these Dirac cones are protected by crystal symmetries and are thus resistant to external perturbations. The extraordinary electronic structure of the monolayer AlB2 was confirmed via angle-resolved photoemission spectroscopy measurements. These results are likely to stimulate further research interest to explore the exotic properties arising from the interplay of Dirac fermions and superconductivity in two-dimensional materials.

AB - Monolayer AlB2 is composed of two atomic layers: honeycomb borophene and triangular aluminum. In contrast with the bulk phase, monolayer AlB2 is predicted to be a superconductor with a high critical temperature. Here, we demonstrate that monolayer AlB2 can be synthesized on Al(111) via molecular beam epitaxy. Our theoretical calculations revealed that the monolayer AlB2 hosts several Dirac cones along the Γ-M and Γ-K directions; these Dirac cones are protected by crystal symmetries and are thus resistant to external perturbations. The extraordinary electronic structure of the monolayer AlB2 was confirmed via angle-resolved photoemission spectroscopy measurements. These results are likely to stimulate further research interest to explore the exotic properties arising from the interplay of Dirac fermions and superconductivity in two-dimensional materials.

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Experimental evidence of monolayer AlB2 with symmetry-protected Dirac cones

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