Universal role of combined symmetry for the protection of the Dirac cone in antiferromagnetic topological insulators

Asuka Honma; Noriyuki Kabeya; Seigo Souma; Yongjian Wang; Kunihiko Yamauchi; Kosuke Nakayama; Daichi Takane; Kenichi Ozawa; Miho Kitamura; Koji Horiba; Hiroshi Kumigashira; Tamio Oguchi; Takashi Takahashi; Noriaki Kimura; Yoichi Ando; Takafumi Sato

doi:10.1103/PhysRevB.110.115152

Universal role of combined symmetry for the protection of the Dirac cone in antiferromagnetic topological insulators

Asuka Honma, Noriyuki Kabeya, Seigo Souma, Yongjian Wang, Kunihiko Yamauchi, Kosuke Nakayama, Daichi Takane, Kenichi Ozawa, Miho Kitamura, Koji Horiba, Hiroshi Kumigashira, Tamio Oguchi, Takashi Takahashi, Noriaki Kimura, Yoichi Ando, Takafumi Sato

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Abstract

Antiferromagnetic topological insulators (AFM TIs) are predicted to exhibit exotic physical properties such as gigantic optical and topological magnetoelectric responses. While a key to achieving such phenomena relies on how to break the symmetry protecting the Dirac-cone surface state (SS) and acquire the mass of Dirac fermions, the mechanism has yet to be clarified. To address this issue, we carried out microfocused angle-resolved photoemission spectroscopy for GdBi hosting the type-II AFM order, and uncovered the stripe-type 2×1 reconstruction of the Fermi surface associated with the AFM band folding. Intriguingly, in contrast to NdBi with the type-I AFM order displaying the surface-selective Dirac-fermion mass, GdBi shows massless behavior irrespective of AFM domains due to the robust topological protection. These results strongly suggest a crucial role of the ΘTD (time-reversal and translational) symmetry to create the Dirac-fermion mass in AFM TIs.

Original language	English
Article number	115152
Journal	Physical Review B
Volume	110
Issue number	11
DOIs	https://doi.org/10.1103/PhysRevB.110.115152
Publication status	Published - 2024 Sept 15

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Honma, A., Kabeya, N., Souma, S., Wang, Y., Yamauchi, K., Nakayama, K., Takane, D., Ozawa, K., Kitamura, M., Horiba, K., Kumigashira, H., Oguchi, T., Takahashi, T., Kimura, N., Ando, Y., & Sato, T. (2024). Universal role of combined symmetry for the protection of the Dirac cone in antiferromagnetic topological insulators. Physical Review B, 110(11), Article 115152. https://doi.org/10.1103/PhysRevB.110.115152

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title = "Universal role of combined symmetry for the protection of the Dirac cone in antiferromagnetic topological insulators",

abstract = "Antiferromagnetic topological insulators (AFM TIs) are predicted to exhibit exotic physical properties such as gigantic optical and topological magnetoelectric responses. While a key to achieving such phenomena relies on how to break the symmetry protecting the Dirac-cone surface state (SS) and acquire the mass of Dirac fermions, the mechanism has yet to be clarified. To address this issue, we carried out microfocused angle-resolved photoemission spectroscopy for GdBi hosting the type-II AFM order, and uncovered the stripe-type 2×1 reconstruction of the Fermi surface associated with the AFM band folding. Intriguingly, in contrast to NdBi with the type-I AFM order displaying the surface-selective Dirac-fermion mass, GdBi shows massless behavior irrespective of AFM domains due to the robust topological protection. These results strongly suggest a crucial role of the ΘTD (time-reversal and translational) symmetry to create the Dirac-fermion mass in AFM TIs.",

author = "Asuka Honma and Noriyuki Kabeya and Seigo Souma and Yongjian Wang and Kunihiko Yamauchi and Kosuke Nakayama and Daichi Takane and Kenichi Ozawa and Miho Kitamura and Koji Horiba and Hiroshi Kumigashira and Tamio Oguchi and Takashi Takahashi and Noriaki Kimura and Yoichi Ando and Takafumi Sato",

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Honma, A, Kabeya, N , Souma, S, Wang, Y, Yamauchi, K, Nakayama, K, Takane, D, Ozawa, K, Kitamura, M, Horiba, K, Kumigashira, H, Oguchi, T, Takahashi, T , Kimura, N, Ando, Y & Sato, T 2024, 'Universal role of combined symmetry for the protection of the Dirac cone in antiferromagnetic topological insulators', Physical Review B, vol. 110, no. 11, 115152. https://doi.org/10.1103/PhysRevB.110.115152

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AU - Honma, Asuka

AU - Kabeya, Noriyuki

AU - Souma, Seigo

AU - Wang, Yongjian

AU - Yamauchi, Kunihiko

AU - Nakayama, Kosuke

AU - Takane, Daichi

AU - Ozawa, Kenichi

AU - Kitamura, Miho

AU - Horiba, Koji

AU - Kumigashira, Hiroshi

AU - Oguchi, Tamio

AU - Takahashi, Takashi

AU - Kimura, Noriaki

AU - Ando, Yoichi

AU - Sato, Takafumi

PY - 2024/9/15

Y1 - 2024/9/15

N2 - Antiferromagnetic topological insulators (AFM TIs) are predicted to exhibit exotic physical properties such as gigantic optical and topological magnetoelectric responses. While a key to achieving such phenomena relies on how to break the symmetry protecting the Dirac-cone surface state (SS) and acquire the mass of Dirac fermions, the mechanism has yet to be clarified. To address this issue, we carried out microfocused angle-resolved photoemission spectroscopy for GdBi hosting the type-II AFM order, and uncovered the stripe-type 2×1 reconstruction of the Fermi surface associated with the AFM band folding. Intriguingly, in contrast to NdBi with the type-I AFM order displaying the surface-selective Dirac-fermion mass, GdBi shows massless behavior irrespective of AFM domains due to the robust topological protection. These results strongly suggest a crucial role of the ΘTD (time-reversal and translational) symmetry to create the Dirac-fermion mass in AFM TIs.

AB - Antiferromagnetic topological insulators (AFM TIs) are predicted to exhibit exotic physical properties such as gigantic optical and topological magnetoelectric responses. While a key to achieving such phenomena relies on how to break the symmetry protecting the Dirac-cone surface state (SS) and acquire the mass of Dirac fermions, the mechanism has yet to be clarified. To address this issue, we carried out microfocused angle-resolved photoemission spectroscopy for GdBi hosting the type-II AFM order, and uncovered the stripe-type 2×1 reconstruction of the Fermi surface associated with the AFM band folding. Intriguingly, in contrast to NdBi with the type-I AFM order displaying the surface-selective Dirac-fermion mass, GdBi shows massless behavior irrespective of AFM domains due to the robust topological protection. These results strongly suggest a crucial role of the ΘTD (time-reversal and translational) symmetry to create the Dirac-fermion mass in AFM TIs.

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Universal role of combined symmetry for the protection of the Dirac cone in antiferromagnetic topological insulators

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