Fundamental class

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In mathematics, the fundamental class is a homology class [M] associated to an oriented manifold M of dimension n, which corresponds to the generator of the homology group $H_n(M;\mathbf{Z})\cong\mathbf{Z}$ . The fundamental class can be thought of as the orientation of the top-dimensional simplices of a suitable triangulation of the manifold.

Definition

Closed, orientable

When M is a connected orientable closed manifold of dimension n, the top homology group is infinite cyclic: $H_n(M,\mathbf{Z}) \cong \mathbf{Z}$ , and an orientation is a choice of generator, a choice of isomorphism $\mathbf{Z} \to H_n(M,\mathbf{Z})$ . The generator is called the fundamental class.

If M is disconnected (but still orientable), a fundamental class is the direct sum of the fundamental classes for each connected component (corresponding to an orientation for each component).

In relation with de Rham cohomology It represents a integration over M; namely for M a smooth manifold, an n-form ω can be paired with the fundamental class as

\langle\omega, [M]\rangle = \int_M \omega\ ,

which is the integral of ω over M, and depends only on the cohomology class of ω.

Stiefel-Whitney class

If M is not orientable, the homology group is not infinite cyclic : $H_n(M,\mathbf{Z}) \ncong \mathbf{Z}$ , one cannot define a orientation of M, Indeed, one cannot integrate differential n-forms over non-orientable manifolds.

However, every closed manifold is $\mathbf{Z}_2$ -orientable, and $H_n(M;\mathbf{Z}_2)=\mathbf{Z}_2$ (for M connected). Thus every closed manifold is $\mathbf{Z}_2$ -oriented (not just orientable: there is no ambiguity in choice of orientation), and has a $\mathbf{Z}_2$ -fundamental class.

This $\mathbf{Z}_2$ -fundamental class is used in defining Stiefel–Whitney class.

With boundary

If M is a compact orientable manifold with boundary, then the top relative homology group is again infinite cyclic $H_n(M,\partial M)\cong \mathbf{Z}$ , and the notion of the fundamental class is extended to the relative case.

Poincaré duality

Lua error in package.lua at line 80: module 'strict' not found. For any abelian group $G$ and non negative integer $q \ge 0$ one can obtain an isomorphism

[M]\cap:H^q(M;G) \rightarrow H_{n-q}(M;G)

.

using the cap product of the fundamental class and the $q$ -homology group . This isomorphism gives Poincaré duality:

H^* (M; G) \cong H_{n-*}(M; G)

.

Poincaré duality is extended to the relative case .

Applications

Lua error in package.lua at line 80: module 'strict' not found. In the Bruhat decomposition of the flag variety of a Lie group, the fundamental class corresponds to the top-dimension Schubert cell, or equivalently the longest element of a Coxeter group.

External links

Fundamental class at the Manifold Atlas.
The Encyclopedia of Mathematics article on the fundamental class.

Fundamental class

Contents

Definition

Closed, orientable

Stiefel-Whitney class

With boundary

Poincaré duality

Applications

See also

External links

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