Evidence for bulk nodal loops and universality of Dirac-node arc surface states in ZrGeXc (Xc = S, Se, Te)

Takechika Nakamura; Seigo Souma; Zhiwei Wang; Kunihiko Yamauchi; Daichi Takane; Hikaru Oinuma; Kosuke Nakayama; Koji Horiba; Hiroshi Kumigashira; Tamio Oguchi; Takashi Takahashi; Yoichi Ando; Takafumi Sato

Evidence for bulk nodal loops and universality of Dirac-node arc surface states in ZrGeX_c (X_c = S, Se, Te)

Takechika Nakamura, Seigo Souma, Zhiwei Wang, Kunihiko Yamauchi, Daichi Takane, Hikaru Oinuma, Kosuke Nakayama, Koji Horiba, Hiroshi Kumigashira, Tamio Oguchi, Takashi Takahashi, Yoichi Ando, Takafumi Sato

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

Abstract

We have performed angle-resolved photoemission spectroscopy (ARPES) on layered ternary compounds ZrGeXc (Xc = S, Se, and Te) with square Ge lattices. ARPES measurements with bulk-sensitive soft-x-ray photons revealed a quasi-two-dimensional bulk-band structure with the bulk nodal loops protected by glide mirror symmetry of the crystal lattice. Moreover, high-resolution ARPES measurements near the Fermi level with vacuum-ultraviolet photons combined with first-principles band-structure calculations elucidated a Dirac-node-arc surface state traversing a tiny spin-orbit gap associated with the nodal loops. We found that this surface state commonly exists in ZrGeXc despite the difference in the shape of nodal loops. The present results suggest that the spin-orbit coupling and the multiple nodal loops cooperatively play a key role in creating the exotic Dirac-node-arc surface states in this class of topological line-node semimetals.

Original language	English
Journal	Unknown Journal
Publication status	Published - 2019 Jun 18

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Evidence for bulk nodal loops and universality of Dirac-node arc surface states in ZrGeX_c (X_c = S, Se, Te). / Nakamura, Takechika; Souma, Seigo; Wang, Zhiwei; Yamauchi, Kunihiko; Takane, Daichi; Oinuma, Hikaru; Nakayama, Kosuke; Horiba, Koji; Kumigashira, Hiroshi; Oguchi, Tamio; Takahashi, Takashi; Ando, Yoichi; Sato, Takafumi.

In: Unknown Journal, 18.06.2019.

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

Nakamura, Takechika ; Souma, Seigo ; Wang, Zhiwei ; Yamauchi, Kunihiko ; Takane, Daichi ; Oinuma, Hikaru ; Nakayama, Kosuke ; Horiba, Koji ; Kumigashira, Hiroshi ; Oguchi, Tamio ; Takahashi, Takashi ; Ando, Yoichi ; Sato, Takafumi. / Evidence for bulk nodal loops and universality of Dirac-node arc surface states in ZrGeX_c (X_c = S, Se, Te). In: Unknown Journal. 2019.

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title = "Evidence for bulk nodal loops and universality of Dirac-node arc surface states in ZrGeXc (Xc = S, Se, Te)",

abstract = "We have performed angle-resolved photoemission spectroscopy (ARPES) on layered ternary compounds ZrGeXc (Xc = S, Se, and Te) with square Ge lattices. ARPES measurements with bulk-sensitive soft-x-ray photons revealed a quasi-two-dimensional bulk-band structure with the bulk nodal loops protected by glide mirror symmetry of the crystal lattice. Moreover, high-resolution ARPES measurements near the Fermi level with vacuum-ultraviolet photons combined with first-principles band-structure calculations elucidated a Dirac-node-arc surface state traversing a tiny spin-orbit gap associated with the nodal loops. We found that this surface state commonly exists in ZrGeXc despite the difference in the shape of nodal loops. The present results suggest that the spin-orbit coupling and the multiple nodal loops cooperatively play a key role in creating the exotic Dirac-node-arc surface states in this class of topological line-node semimetals.",

author = "Takechika Nakamura and Seigo Souma and Zhiwei Wang and Kunihiko Yamauchi and Daichi Takane and Hikaru Oinuma and Kosuke Nakayama and Koji Horiba and Hiroshi Kumigashira and Tamio Oguchi and Takashi Takahashi and Yoichi Ando and Takafumi Sato",

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TY - JOUR

T1 - Evidence for bulk nodal loops and universality of Dirac-node arc surface states in ZrGeXc (Xc = S, Se, Te)

AU - Nakamura, Takechika

AU - Souma, Seigo

AU - Wang, Zhiwei

AU - Yamauchi, Kunihiko

AU - Takane, Daichi

AU - Oinuma, Hikaru

AU - Nakayama, Kosuke

AU - Horiba, Koji

AU - Kumigashira, Hiroshi

AU - Oguchi, Tamio

AU - Takahashi, Takashi

AU - Ando, Yoichi

AU - Sato, Takafumi

PY - 2019/6/18

Y1 - 2019/6/18

N2 - We have performed angle-resolved photoemission spectroscopy (ARPES) on layered ternary compounds ZrGeXc (Xc = S, Se, and Te) with square Ge lattices. ARPES measurements with bulk-sensitive soft-x-ray photons revealed a quasi-two-dimensional bulk-band structure with the bulk nodal loops protected by glide mirror symmetry of the crystal lattice. Moreover, high-resolution ARPES measurements near the Fermi level with vacuum-ultraviolet photons combined with first-principles band-structure calculations elucidated a Dirac-node-arc surface state traversing a tiny spin-orbit gap associated with the nodal loops. We found that this surface state commonly exists in ZrGeXc despite the difference in the shape of nodal loops. The present results suggest that the spin-orbit coupling and the multiple nodal loops cooperatively play a key role in creating the exotic Dirac-node-arc surface states in this class of topological line-node semimetals.

AB - We have performed angle-resolved photoemission spectroscopy (ARPES) on layered ternary compounds ZrGeXc (Xc = S, Se, and Te) with square Ge lattices. ARPES measurements with bulk-sensitive soft-x-ray photons revealed a quasi-two-dimensional bulk-band structure with the bulk nodal loops protected by glide mirror symmetry of the crystal lattice. Moreover, high-resolution ARPES measurements near the Fermi level with vacuum-ultraviolet photons combined with first-principles band-structure calculations elucidated a Dirac-node-arc surface state traversing a tiny spin-orbit gap associated with the nodal loops. We found that this surface state commonly exists in ZrGeXc despite the difference in the shape of nodal loops. The present results suggest that the spin-orbit coupling and the multiple nodal loops cooperatively play a key role in creating the exotic Dirac-node-arc surface states in this class of topological line-node semimetals.

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