Giant magneto-optical responses in magnetic Weyl semimetal Co3Sn2S2

Y. Okamura; S. Minami; Y. Kato; Y. Fujishiro; Y. Kaneko; J. Ikeda; J. Muramoto; R. Kaneko; K. Ueda; V. Kocsis; N. Kanazawa; Y. Taguchi; T. Koretsune; K. Fujiwara; A. Tsukazaki; R. Arita; Y. Tokura; Y. Takahashi

doi:10.1038/s41467-020-18470-0

Giant magneto-optical responses in magnetic Weyl semimetal Co₃Sn₂S₂

Y. Okamura, S. Minami, Y. Kato, Y. Fujishiro, Y. Kaneko, J. Ikeda, J. Muramoto, R. Kaneko, K. Ueda, V. Kocsis, N. Kanazawa, Y. Taguchi, T. Koretsune, K. Fujiwara, A. Tsukazaki, R. Arita, Y. Tokura, Y. Takahashi

研究成果: Article › 査読

58 被引用数 (Scopus)

抄録

The Weyl semimetal (WSM), which hosts pairs of Weyl points and accompanying Berry curvature in momentum space near Fermi level, is expected to exhibit novel electromagnetic phenomena. Although the large optical/electronic responses such as nonlinear optical effects and intrinsic anomalous Hall effect (AHE) have recently been demonstrated indeed, the conclusive evidence for their topological origins has remained elusive. Here, we report the gigantic magneto-optical (MO) response arising from the topological electronic structure with intense Berry curvature in magnetic WSM Co₃Sn₂S₂. The low-energy MO spectroscopy and the first-principles calculation reveal that the interband transitions on the nodal rings connected to the Weyl points show the resonance of the optical Hall conductivity and give rise to the giant intrinsic AHE in dc limit. The terahertz Faraday and infrared Kerr rotations are found to be remarkably enhanced by these resonances with topological electronic structures, demonstrating the novel low-energy optical response inherent to the magnetic WSM.

本文言語	English
論文番号	4619
ジャーナル	Nature communications
巻	11
号	1
DOI	https://doi.org/10.1038/s41467-020-18470-0
出版ステータス	Published - 2020 12月 1

ASJC Scopus subject areas

化学 (全般)
生化学、遺伝学、分子生物学（全般）
一般
物理学および天文学（全般）

文献へのアクセス

10.1038/s41467-020-18470-0

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引用スタイル

Okamura, Y., Minami, S., Kato, Y., Fujishiro, Y., Kaneko, Y., Ikeda, J., Muramoto, J., Kaneko, R., Ueda, K., Kocsis, V., Kanazawa, N., Taguchi, Y., Koretsune, T., Fujiwara, K., Tsukazaki, A., Arita, R., Tokura, Y., & Takahashi, Y. (2020). Giant magneto-optical responses in magnetic Weyl semimetal Co₃Sn₂S₂. Nature communications, 11(1), [4619]. https://doi.org/10.1038/s41467-020-18470-0

Okamura, Y, Minami, S, Kato, Y, Fujishiro, Y, Kaneko, Y, Ikeda, J, Muramoto, J, Kaneko, R, Ueda, K, Kocsis, V, Kanazawa, N, Taguchi, Y, Koretsune, T , Fujiwara, K , Tsukazaki, A, Arita, R, Tokura, Y & Takahashi, Y 2020, 'Giant magneto-optical responses in magnetic Weyl semimetal Co₃Sn₂S₂', Nature communications, vol. 11, no. 1, 4619. https://doi.org/10.1038/s41467-020-18470-0

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abstract = "The Weyl semimetal (WSM), which hosts pairs of Weyl points and accompanying Berry curvature in momentum space near Fermi level, is expected to exhibit novel electromagnetic phenomena. Although the large optical/electronic responses such as nonlinear optical effects and intrinsic anomalous Hall effect (AHE) have recently been demonstrated indeed, the conclusive evidence for their topological origins has remained elusive. Here, we report the gigantic magneto-optical (MO) response arising from the topological electronic structure with intense Berry curvature in magnetic WSM Co3Sn2S2. The low-energy MO spectroscopy and the first-principles calculation reveal that the interband transitions on the nodal rings connected to the Weyl points show the resonance of the optical Hall conductivity and give rise to the giant intrinsic AHE in dc limit. The terahertz Faraday and infrared Kerr rotations are found to be remarkably enhanced by these resonances with topological electronic structures, demonstrating the novel low-energy optical response inherent to the magnetic WSM.",

author = "Y. Okamura and S. Minami and Y. Kato and Y. Fujishiro and Y. Kaneko and J. Ikeda and J. Muramoto and R. Kaneko and K. Ueda and V. Kocsis and N. Kanazawa and Y. Taguchi and T. Koretsune and K. Fujiwara and A. Tsukazaki and R. Arita and Y. Tokura and Y. Takahashi",

note = "Funding Information: We thank N. Nagaosa for valuable comments and N. Ogawa and M. Sotome for experimental help. This work was partially supported by JSPS KAKENHI (Grant Nos. 19K14653, 16H06345) and JST CREST (JPMJCR16F1, JPMJCR1874 and JPMJCR18T2). Publisher Copyright: {\textcopyright} 2020, The Author(s).",

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AU - Minami, S.

AU - Kato, Y.

AU - Fujishiro, Y.

AU - Kaneko, Y.

AU - Ikeda, J.

AU - Muramoto, J.

AU - Kaneko, R.

AU - Ueda, K.

AU - Kocsis, V.

AU - Kanazawa, N.

AU - Taguchi, Y.

AU - Koretsune, T.

AU - Fujiwara, K.

AU - Tsukazaki, A.

AU - Arita, R.

AU - Tokura, Y.

AU - Takahashi, Y.

N1 - Funding Information: We thank N. Nagaosa for valuable comments and N. Ogawa and M. Sotome for experimental help. This work was partially supported by JSPS KAKENHI (Grant Nos. 19K14653, 16H06345) and JST CREST (JPMJCR16F1, JPMJCR1874 and JPMJCR18T2). Publisher Copyright: © 2020, The Author(s).

PY - 2020/12/1

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N2 - The Weyl semimetal (WSM), which hosts pairs of Weyl points and accompanying Berry curvature in momentum space near Fermi level, is expected to exhibit novel electromagnetic phenomena. Although the large optical/electronic responses such as nonlinear optical effects and intrinsic anomalous Hall effect (AHE) have recently been demonstrated indeed, the conclusive evidence for their topological origins has remained elusive. Here, we report the gigantic magneto-optical (MO) response arising from the topological electronic structure with intense Berry curvature in magnetic WSM Co3Sn2S2. The low-energy MO spectroscopy and the first-principles calculation reveal that the interband transitions on the nodal rings connected to the Weyl points show the resonance of the optical Hall conductivity and give rise to the giant intrinsic AHE in dc limit. The terahertz Faraday and infrared Kerr rotations are found to be remarkably enhanced by these resonances with topological electronic structures, demonstrating the novel low-energy optical response inherent to the magnetic WSM.

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