Bundles over Connected Sums

A principal bundle over the connected sum of two manifolds need not be diffeomorphic or even homotopy equivalent to a non-trivial connected sum of manifolds. We show however that the homology of the total space of a bundle formed a pullback of a bundle over one of the summands is the same as if it h...

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Bibliographic Details
Published inarXiv.org
Main Authors Jeffrey, Lisa C, Selick, Paul
Format Paper
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 10.12.2021
Subjects
Equivalence
Homology
Manifolds
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Summary:A principal bundle over the connected sum of two manifolds need not be diffeomorphic or even homotopy equivalent to a non-trivial connected sum of manifolds. We show however that the homology of the total space of a bundle formed a pullback of a bundle over one of the summands is the same as if it had that bundle as a summon. An application appears in a paper by Ho, Jeffrey, Selick, Xia in the Special Issue of the Quarterly Journal of Mathematics in honour of Sir Michael Atiyah. Examples are given, including one where the total space of the pullback is not homotopy equivalent to a connected some with that as a summand and some in which it is. Finally, we describe the homology of the total space of a principal \(U(1)\) bundle over a \(6\)-manifold of the type described in Wall's classification. It is a connected sum of an even number of copies of \(S^3\times S^4\) with a \(7\)-manifold whose homology is \(Z/k\) in degree \(4\) (and \(Z\) in degrees \(0\) and \(7\), and zero in all other degrees.
ISSN:2331-8422