Observation of Dirac cone warping and chirality effects in silicene

Baojie Feng; Hui Li; Cheng Cheng Liu; Ting Na Shao; Peng Cheng; Yugui Yao; Sheng Meng; Lan Chen; Kehui Wu

doi:10.1021/nn403661h

Observation of Dirac cone warping and chirality effects in silicene

Baojie Feng, Hui Li, Cheng Cheng Liu, Ting Na Shao, Peng Cheng, Yugui Yao, Sheng Meng, Lan Chen^*, Kehui Wu

^*此作品的通讯作者

物理学院

CAS - Institute of Physics

科研成果: 期刊稿件 › 文章 › 同行评审

90 引用（Scopus）

摘要

We performed low temperature scanning tunneling microscopy (STM) and spectroscopy (STS) studies on the electronic properties of (√3 × √3)R30 phase of silicene on Ag(111) surface. We found the existence of Dirac Fermion chirality through the observation of -1.5 and -1.0 power law decay of quasiparticle interference (QPI) patterns. Moreover, in contrast to the trigonal warping of Dirac cone in graphene, we found that the Dirac cone of silicene is hexagonally warped, which is further confirmed by density functional calculations and explained by the unique superstructure of silicene. Our results demonstrate that the (√3 × √3)R30 phase is an ideal system to investigate the unique Dirac Fermion properties of silicene.

源语言	英语
页（从-至）	9049-9054
页数	6
期刊	ACS Nano
卷	7
期	10
DOI	https://doi.org/10.1021/nn403661h
出版状态	已出版 - 22 10月 2013

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title = "Observation of Dirac cone warping and chirality effects in silicene",

abstract = "We performed low temperature scanning tunneling microscopy (STM) and spectroscopy (STS) studies on the electronic properties of (√3 × √3)R30 phase of silicene on Ag(111) surface. We found the existence of Dirac Fermion chirality through the observation of -1.5 and -1.0 power law decay of quasiparticle interference (QPI) patterns. Moreover, in contrast to the trigonal warping of Dirac cone in graphene, we found that the Dirac cone of silicene is hexagonally warped, which is further confirmed by density functional calculations and explained by the unique superstructure of silicene. Our results demonstrate that the (√3 × √3)R30 phase is an ideal system to investigate the unique Dirac Fermion properties of silicene.",

keywords = "Dirac fermion, chirality, molecular beam epitaxy, scanning tunneling microscopy, silicene, warping",

author = "Baojie Feng and Hui Li and Liu, {Cheng Cheng} and Shao, {Ting Na} and Peng Cheng and Yugui Yao and Sheng Meng and Lan Chen and Kehui Wu",

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AU - Feng, Baojie

AU - Li, Hui

AU - Liu, Cheng Cheng

AU - Shao, Ting Na

AU - Cheng, Peng

AU - Yao, Yugui

AU - Meng, Sheng

AU - Chen, Lan

AU - Wu, Kehui

PY - 2013/10/22

Y1 - 2013/10/22

N2 - We performed low temperature scanning tunneling microscopy (STM) and spectroscopy (STS) studies on the electronic properties of (√3 × √3)R30 phase of silicene on Ag(111) surface. We found the existence of Dirac Fermion chirality through the observation of -1.5 and -1.0 power law decay of quasiparticle interference (QPI) patterns. Moreover, in contrast to the trigonal warping of Dirac cone in graphene, we found that the Dirac cone of silicene is hexagonally warped, which is further confirmed by density functional calculations and explained by the unique superstructure of silicene. Our results demonstrate that the (√3 × √3)R30 phase is an ideal system to investigate the unique Dirac Fermion properties of silicene.

AB - We performed low temperature scanning tunneling microscopy (STM) and spectroscopy (STS) studies on the electronic properties of (√3 × √3)R30 phase of silicene on Ag(111) surface. We found the existence of Dirac Fermion chirality through the observation of -1.5 and -1.0 power law decay of quasiparticle interference (QPI) patterns. Moreover, in contrast to the trigonal warping of Dirac cone in graphene, we found that the Dirac cone of silicene is hexagonally warped, which is further confirmed by density functional calculations and explained by the unique superstructure of silicene. Our results demonstrate that the (√3 × √3)R30 phase is an ideal system to investigate the unique Dirac Fermion properties of silicene.

KW - Dirac fermion

KW - chirality

KW - molecular beam epitaxy

KW - scanning tunneling microscopy

KW - silicene

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Observation of Dirac cone warping and chirality effects in silicene

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