Superconductivity in infinite-layer nickelates

Yusuke Nomura; Ryotaro Arita

doi:10.1088/1361-6633/ac5a60

Superconductivity in infinite-layer nickelates

Yusuke Nomura, Ryotaro Arita

研究成果: Review article › 査読

27 被引用数 (Scopus)

抄録

The recent discovery of the superconductivity in the doped infinite layer nickelates RNiO2 (R = La, Pr, Nd) is of great interest since the nickelates are isostructural to doped (Ca, Sr)CuO2 having superconducting transition temperature (T c) of about 110 K. Verifying the commonalities and differences between these oxides will certainly give a new insight into the mechanism of high T c superconductivity in correlated electron systems. In this paper, we review experimental and theoretical works on this new superconductor and discuss the future perspectives for the 'nickel age' of superconductivity.

本文言語	English
論文番号	052501
ジャーナル	Reports on Progress in Physics
巻	85
号	5
DOI	https://doi.org/10.1088/1361-6633/ac5a60
出版ステータス	Published - 2022 5月
外部発表	はい

ASJC Scopus subject areas

物理学および天文学（全般）

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10.1088/1361-6633/ac5a60

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title = "Superconductivity in infinite-layer nickelates",

abstract = "The recent discovery of the superconductivity in the doped infinite layer nickelates RNiO2 (R = La, Pr, Nd) is of great interest since the nickelates are isostructural to doped (Ca, Sr)CuO2 having superconducting transition temperature (T c) of about 110 K. Verifying the commonalities and differences between these oxides will certainly give a new insight into the mechanism of high T c superconductivity in correlated electron systems. In this paper, we review experimental and theoretical works on this new superconductor and discuss the future perspectives for the 'nickel age' of superconductivity.",

keywords = "infinite-layer nickelates, strongly-correlated materials, superconductivity",

author = "Yusuke Nomura and Ryotaro Arita",

note = "Funding Information: We are grateful for fruitful discussions with Motoaki Hirayama, Terumasa Tadano, Takuya Nomoto, Motoharu Kitatani, Yoshihide Yoshimoto, and Kazuma Nakamura. We acknowledge the financial support by Grant-in-Aids for Scientific Research (JSPS KAKENHI) [Grant Nos. 20K14423 (YN), 21H01041 (YN), and 19H05825 (RA)] and MEXT as {\textquoteleft}Program for Promoting Researches on the Supercomputer Fugaku{\textquoteright} (Basic Science for Emergence and Functionality in Quantum Matter—Innovative Strongly-Correlated Electron Science by Integration of {\textquoteleft}Fugaku{\textquoteright} and Frontier Experiments—) (JPMXP1020200104). Publisher Copyright: {\textcopyright} 2022 IOP Publishing Ltd.",

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AU - Nomura, Yusuke

AU - Arita, Ryotaro

N1 - Funding Information: We are grateful for fruitful discussions with Motoaki Hirayama, Terumasa Tadano, Takuya Nomoto, Motoharu Kitatani, Yoshihide Yoshimoto, and Kazuma Nakamura. We acknowledge the financial support by Grant-in-Aids for Scientific Research (JSPS KAKENHI) [Grant Nos. 20K14423 (YN), 21H01041 (YN), and 19H05825 (RA)] and MEXT as ‘Program for Promoting Researches on the Supercomputer Fugaku’ (Basic Science for Emergence and Functionality in Quantum Matter—Innovative Strongly-Correlated Electron Science by Integration of ‘Fugaku’ and Frontier Experiments—) (JPMXP1020200104). Publisher Copyright: © 2022 IOP Publishing Ltd.

PY - 2022/5

Y1 - 2022/5

N2 - The recent discovery of the superconductivity in the doped infinite layer nickelates RNiO2 (R = La, Pr, Nd) is of great interest since the nickelates are isostructural to doped (Ca, Sr)CuO2 having superconducting transition temperature (T c) of about 110 K. Verifying the commonalities and differences between these oxides will certainly give a new insight into the mechanism of high T c superconductivity in correlated electron systems. In this paper, we review experimental and theoretical works on this new superconductor and discuss the future perspectives for the 'nickel age' of superconductivity.

AB - The recent discovery of the superconductivity in the doped infinite layer nickelates RNiO2 (R = La, Pr, Nd) is of great interest since the nickelates are isostructural to doped (Ca, Sr)CuO2 having superconducting transition temperature (T c) of about 110 K. Verifying the commonalities and differences between these oxides will certainly give a new insight into the mechanism of high T c superconductivity in correlated electron systems. In this paper, we review experimental and theoretical works on this new superconductor and discuss the future perspectives for the 'nickel age' of superconductivity.

KW - infinite-layer nickelates

KW - strongly-correlated materials

KW - superconductivity

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Superconductivity in infinite-layer nickelates

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