Obstruction classes and Pontrjagin classes (Ex)
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for a virtual complex vector bundle $\xi$, where $s_k$ are the Newton polynomials. In the case $X=S^{2n}$ two special things occur: | for a virtual complex vector bundle $\xi$, where $s_k$ are the Newton polynomials. In the case $X=S^{2n}$ two special things occur: | ||
− | #The Chern character is injective with image $H^{2n}(S^{2n};\mathbb{Z})$. | + | #The Chern character is injective with image $H^{2n}(S^{2n};\mathbb{Z})$. This follows from the case $n=1$ using Bott periodicity and multiplicativity: $$ \tilde K_0(S^{2n}) \cong\tilde K_0(S^2)\otimes \dots \otimes\tilde K_0(S^2) \to \tilde H^{ev}(S^{2};\mathbb{Q})\otimes \dots \otimes \tilde H^{ev}(S^{2};\mathbb{Q})\cong \tilde H^{ev}(S^{2n};\mathbb{Q}) $$ |
− | #A calculation shows that the image of a (virtual) complex vector bundle $\xi$ over $S^{2n}$ is given by $\pm c_n(\xi)/(n-1)!$ | + | #A calculation shows that the image of a (virtual) complex vector bundle $\xi$ over $S^{2n}$ is given by: |
+ | $$ch(\xi)= s_n(0,\dots, 0, c_n(\xi))/n! = \pm c_n(\xi)/(n-1)!$$ | ||
Hence, $c_i(\eta)$ is given by $\pm (n-1)!$ times a generator. This establishes the second part of the Theorem. | Hence, $c_i(\eta)$ is given by $\pm (n-1)!$ times a generator. This establishes the second part of the Theorem. |
Revision as of 01:08, 1 February 2011
Contents |
1 Question
Take the stable vector bundle over the -sphere corresponding to a generator of . By defintion the the primary obstruction to trivialising is an obstruction class which generates .
Question 1.1.
What is the -th integral Pontryagin class of , ?2 Answer
Let , let be the integer k-factorial and recall that is a generator.
Theorem 2.1 [Kervaire1959]. There is an identity
Similarly, if denotes the complex vector bundle over corresponding to a generator of , then its Chern class is given by
where is a generator.
Justification
A way to prove the Theorem 2.1 is to use the Chern character
from complex topological -theory. It can be defined using the explicit formula
for a virtual complex vector bundle , where are the Newton polynomials. In the case two special things occur:
- The Chern character is injective with image . This follows from the case using Bott periodicity and multiplicativity:
- A calculation shows that the image of a (virtual) complex vector bundle over is given by:
Hence, is given by times a generator. This establishes the second part of the Theorem.
The first part follows using the definition together with the fact that complexification induces a map
which is given by multiplication by , i.e. is a isomorphism in degrees and multiplication by 2 in degrees .
3 Further discussion
...
4 References
- [Kervaire1959] M. A. Kervaire, A note on obstructions and characteristic classes, Amer. J. Math. 81 (1959), 773–784. MR0107863 (21 #6585) Zbl 0124.16302