Sphere bundles and spin (Ex)
From Manifold Atlas
(Difference between revisions)
Patrickorson (Talk | contribs) |
m |
||
(7 intermediate revisions by 3 users not shown) | |||
Line 1: | Line 1: | ||
<wikitex>; | <wikitex>; | ||
− | + | * For $k\geq2$, determine the number of distinct linear $S^k$-bundles over $S^2$. | |
− | + | * Let $E_k\to S^2$ be the complex plane bundle with Euler number $k$. Explain how to obtain the total space of the sphere-bundle $S(E_k)$ via surgery on $S^3$. | |
− | + | ||
− | Now suppose $M$ is simply connected. For $M$ not spin, show that the | + | For $m\geq 4$ and $M$ a smooth closed manifold, let $S^1\hookrightarrow M^m$ be a nullhomotopic embedding. For $M$ spin, show that there is more than one possible diffeormorphism type for the outcome of a surgery on this embedding. |
+ | |||
+ | Now suppose $M$ is simply connected. For $M$ not spin, show that the outcome of a surgery on this embedding ''is'' uniquely determined up to diffeomorphism (difficult!). | ||
+ | |||
+ | For hints, see section in \cite{Gompf&Stipsicz1999} on surgery. | ||
</wikitex> | </wikitex> | ||
== References == | == References == | ||
{{#RefList:}} | {{#RefList:}} | ||
[[Category:Exercises]] | [[Category:Exercises]] | ||
+ | [[Category:Exercises with solution]] |
Latest revision as of 09:24, 1 April 2012
- For , determine the number of distinct linear -bundles over .
- Let be the complex plane bundle with Euler number . Explain how to obtain the total space of the sphere-bundle via surgery on .
For and a smooth closed manifold, let be a nullhomotopic embedding. For spin, show that there is more than one possible diffeormorphism type for the outcome of a surgery on this embedding.
Now suppose is simply connected. For not spin, show that the outcome of a surgery on this embedding is uniquely determined up to diffeomorphism (difficult!).
For hints, see section in [Gompf&Stipsicz1999] on surgery.
References
- [Gompf&Stipsicz1999] R. E. Gompf and A. I. Stipsicz, -manifolds and Kirby calculus, American Mathematical Society, 1999. MR1707327 (2000h:57038) Zbl 0933.57020