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Classification of Bott Manifolds up to Dimension 8

Published online by Cambridge University Press:  10 December 2014

Suyoung Choi*
Affiliation:
Department of Mathematics, Ajou University, San 5, Woncheondong, Yeongtonggu, Suwon 443-749, Republic of Korea ([email protected])

Abstract

We show that three- and four-stage Bott manifolds are classified up to diffeomorphism by their integral cohomology rings. In addition, any cohomology ring isomorphism between two three-stage Bott manifolds can be realized by a diffeomorphism between the Bott manifolds.

Type
Research Article
Copyright
Copyright © Edinburgh Mathematical Society 2015 

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References

1.Borel, A. and Hirzebruch, F., Characteristic classes and homogeneous spaces I, Am. J. Math. 80 (1958), 458538.Google Scholar
2.Choi, S. and Masuda, M., Classification of ℚ-trivial Bott manifolds, J. Symplectic Geom. 10(3) (2012), 447462.CrossRefGoogle Scholar
3.Choi, S., Masuda, M. and Suh, D. Y., Topological classification of generalized Bott towers, Trans. Am. Math. Soc. 362(2) (2010), 10971112.Google Scholar
4.Choi, S., Masuda, M. and Suh, D. Y., Rigidity problems in toric topology: a survey, Proc. Steklov Inst. Math. 275 (2011), 177190.Google Scholar
5.Hirzebruch, F., Über eine Klasse von einfachzusammenhäangenden komplexen Mannigfaltigkeiten, Math. Annalen 124 (1951), 7786.Google Scholar
6.Ishida, H., (Filtered) cohomological rigidity of Bott towers, Osaka J. Math. 49(2 (2012), 515522.Google Scholar
7.Masuda, M. and Panov, T. E., Semi-free circle actions, Bott towers, and quasitoric manifolds, Mat. Sb. 199(8 (2008), 95122.Google Scholar