Quasiparticle interference and nonsymmorphic effect on a floating band surface state of ZrSiSe

A new type of surface state has recently been reported in ZrSiSe but its physical properties remain unclear. Here, Zhu, Chang, Huang, et al. report rotational symmetry breaking, healing effect and anomalous Umklapp scattering arising from the nonsymmorphic effect of the floating band state on ZrSiSe...

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Autores principales:	Zhen Zhu, Tay-Rong Chang, Cheng-Yi Huang, Haiyang Pan, Xiao-Ang Nie, Xin-Zhe Wang, Zhe-Ting Jin, Su-Yang Xu, Shin-Ming Huang, Dan-Dan Guan, Shiyong Wang, Yao-Yi Li, Canhua Liu, Dong Qian, Wei Ku, Fengqi Song, Hsin Lin, Hao Zheng, Jin-Feng Jia
Formato:	article
Lenguaje:	EN
Publicado:	Nature Portfolio 2018
Materias:	Science Q
Acceso en línea:	https://doaj.org/article/0fc3af03363149b0a2354647bb4ccc80
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spelling	oai:doaj.org-article:0fc3af03363149b0a2354647bb4ccc802021-12-02T16:49:20ZQuasiparticle interference and nonsymmorphic effect on a floating band surface state of ZrSiSe10.1038/s41467-018-06661-92041-1723https://doaj.org/article/0fc3af03363149b0a2354647bb4ccc802018-10-01T00:00:00Zhttps://doi.org/10.1038/s41467-018-06661-9https://doaj.org/toc/2041-1723A new type of surface state has recently been reported in ZrSiSe but its physical properties remain unclear. Here, Zhu, Chang, Huang, et al. report rotational symmetry breaking, healing effect and anomalous Umklapp scattering arising from the nonsymmorphic effect of the floating band state on ZrSiSe (001) surface.Zhen ZhuTay-Rong ChangCheng-Yi HuangHaiyang PanXiao-Ang NieXin-Zhe WangZhe-Ting JinSu-Yang XuShin-Ming HuangDan-Dan GuanShiyong WangYao-Yi LiCanhua LiuDong QianWei KuFengqi SongHsin LinHao ZhengJin-Feng JiaNature PortfolioarticleScienceQENNature Communications, Vol 9, Iss 1, Pp 1-8 (2018)
institution	DOAJ
collection	DOAJ
language	EN
topic	Science Q
spellingShingle	Science Q Zhen Zhu Tay-Rong Chang Cheng-Yi Huang Haiyang Pan Xiao-Ang Nie Xin-Zhe Wang Zhe-Ting Jin Su-Yang Xu Shin-Ming Huang Dan-Dan Guan Shiyong Wang Yao-Yi Li Canhua Liu Dong Qian Wei Ku Fengqi Song Hsin Lin Hao Zheng Jin-Feng Jia Quasiparticle interference and nonsymmorphic effect on a floating band surface state of ZrSiSe
description	A new type of surface state has recently been reported in ZrSiSe but its physical properties remain unclear. Here, Zhu, Chang, Huang, et al. report rotational symmetry breaking, healing effect and anomalous Umklapp scattering arising from the nonsymmorphic effect of the floating band state on ZrSiSe (001) surface.
format	article
author	Zhen Zhu Tay-Rong Chang Cheng-Yi Huang Haiyang Pan Xiao-Ang Nie Xin-Zhe Wang Zhe-Ting Jin Su-Yang Xu Shin-Ming Huang Dan-Dan Guan Shiyong Wang Yao-Yi Li Canhua Liu Dong Qian Wei Ku Fengqi Song Hsin Lin Hao Zheng Jin-Feng Jia
author_facet	Zhen Zhu Tay-Rong Chang Cheng-Yi Huang Haiyang Pan Xiao-Ang Nie Xin-Zhe Wang Zhe-Ting Jin Su-Yang Xu Shin-Ming Huang Dan-Dan Guan Shiyong Wang Yao-Yi Li Canhua Liu Dong Qian Wei Ku Fengqi Song Hsin Lin Hao Zheng Jin-Feng Jia
author_sort	Zhen Zhu
title	Quasiparticle interference and nonsymmorphic effect on a floating band surface state of ZrSiSe
title_short	Quasiparticle interference and nonsymmorphic effect on a floating band surface state of ZrSiSe
title_full	Quasiparticle interference and nonsymmorphic effect on a floating band surface state of ZrSiSe
title_fullStr	Quasiparticle interference and nonsymmorphic effect on a floating band surface state of ZrSiSe
title_full_unstemmed	Quasiparticle interference and nonsymmorphic effect on a floating band surface state of ZrSiSe
title_sort	quasiparticle interference and nonsymmorphic effect on a floating band surface state of zrsise
publisher	Nature Portfolio
publishDate	2018
url	https://doaj.org/article/0fc3af03363149b0a2354647bb4ccc80
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Quasiparticle interference and nonsymmorphic effect on a floating band surface state of ZrSiSe

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