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Real Hypersurfaces in the Complex Quadric with Lie Invariant Structure Jacobi Operator

Part of: Global differential geometry

Published online by Cambridge University Press:  10 June 2019

Young Jin Suh  and
Gyu Jong Kim
Young Jin Suh
Affiliation:
Kyungpook National University, College of Natural Sciences, Department of Mathematics, and Research Institute of Real & Complex Manifolds, Daegu41566, Republic of Korea Email: yjsuh@knu.ac.krhb2107@naver.com
Gyu Jong Kim
Affiliation:
Kyungpook National University, College of Natural Sciences, Department of Mathematics, and Research Institute of Real & Complex Manifolds, Daegu41566, Republic of Korea Email: yjsuh@knu.ac.krhb2107@naver.com
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Abstract

We introduce the notion of Lie invariant structure Jacobi operators for real hypersurfaces in the complex quadric $Q^{m}=SO_{m+2}/SO_{m}SO_{2}$. The existence of invariant structure Jacobi operators implies that the unit normal vector field $N$ becomes $\mathfrak{A}$-principal or $\mathfrak{A}$-isotropic. Then, according to each case, we give a complete classification of real hypersurfaces in $Q^{m}=SO_{m+2}/SO_{m}SO_{2}$ with Lie invariant structure Jacobi operators.

Keywords

invariant structure Jacobi operator𝔄-isotropic𝔄-principalKähler structurecomplex conjugationcomplex quadric

MSC classification

Primary: 53C40: Global submanifolds
Secondary: 53C55: Hermitian and Kählerian manifolds
Type
Article
Information
Canadian Mathematical Bulletin , Volume 63 , Issue 1 , March 2020 , pp. 204 - 221
Copyright
© Canadian Mathematical Society 2019

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Footnotes

This work was supported by grant Proj. No. NRF-2018-R1D1A1B-05040381 and the second by grant Proj. No. NRF-2018-R1A6A3A-01011828 from National Research Foundation of Korea. Young Jin Suh is the corresponding author.

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