Chern-Weil homomorphism

From Wikipedia, the free encyclopedia

In mathematics, the Chern-Weil homomorphism is a basic construction in the Chern-Weil theory, relating for a smooth manifold M the curvature of M to the de Rham cohomology groups of M, i.e., geometry to topology. This theory of Shiing-Shen Chern and André Weil from the 1940s was an important step in the theory of characteristic classes. It is a generalization of the Chern-Gauss-Bonnet theorem.

Denote by $\mathbb K$ either the real field or complex field. Let G be a real or complex Lie group with Lie algebra $\mathfrak g$ ; and let

$\mathbb K(\mathfrak g^*)$

denote the algebra of $\mathbb K$ -valued polynomials on $\mathfrak g$ . Let $\mathbb K(\mathfrak g^*)^{Ad(G)}$ be the subalgebra of fixed points in $\mathbb K(\mathfrak g^*)$ under the adjoint action of G, so that for instance

$f(t_1,\dots,t_k)=f(Ad_g t_1,\dots, Ad_g t_k)$

for all $f\in\mathbb K(\mathfrak g^*)^{Ad(G)}$ .

The Chern-Weil homomorphism is a homomorphism of $\mathbb K$ -algebras from $\mathbb K(\mathfrak g^*)^{Ad(G)}$ to the cohomology algebra $H^*(M,\mathbb K)$ . Such a homomorphism exists and is uniquely defined for every principal G-bundle P on M. One can usually think of the bundle P as living inside the K-theory of M, $[P]\in K_G(M)$ , so that the class of Chern-Weil homomorphisms is parametrized by $K G (M)$ .

[edit] Definition of the homomorphism

Choose any connection form w in P, and let $Ω$ be the associated curvature 2-form. If $f\in\mathbb K(\mathfrak g^*)^{Ad(G)}$ is a homogeneous polynomial of degree k, let $f (Ω)$ be the 2k-form on P given by

$f(\Omega)(X_1,\dots,X_{2k})=\frac{1}{(2k)!}\sum_{\sigma\in\mathfrak S_{2k}}\epsilon_\sigma f(\Omega(X_{\sigma(1)},X_{\sigma(2)}),\dots,\Omega(X_{\sigma(2k-1),\sigma(2k)}))$

where $ε σ$ is the sign of the permutation $σ$ in the symmetric group on 2k numbers $\mathfrak S_{2k}$ .

(see Pfaffian).

One can then show that $f (Ω)$ is closed $d f (Ω) = 0$ , and that the cohomology class of $f (Ω)$ is independent of the choice of connection on P, so it depends only upon the principal bundle.

Thus letting $φ(f)$ be the cohomology class obtained in this way from f, we obtain an algebra homomorphism $\phi:\mathbb K(\mathfrak g^*)^{Ad(G)}\rightarrow H^*(M,\mathbb K)$ .

[edit] References

Chern, S.-S., Topics in Differential Geometry, Institute for Advanced Study, mimeographed lecture notes, 1951.
Narashiman, M. and Ramanan, S. "Existence of universal connections", Amer. J. Math., 83 (1961), 563-572.
Weil, A., unpublished manuscript.

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Category: Differential geometry

Chern-Weil homomorphism

From Wikipedia, the free encyclopedia

[edit] Definition of the homomorphism

[edit] References

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