Twisted Poincaré duality

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Short description: Extends Poincaré duality beyond oriented manifolds

In mathematics, the twisted Poincaré duality is a theorem removing the restriction on Poincaré duality to oriented manifolds. The existence of a global orientation is replaced by carrying along local information, by means of a local coefficient system.

Twisted Poincaré duality for de Rham cohomology

Another version of the theorem with real coefficients features de Rham cohomology with values in the orientation bundle. This is the flat real line bundle denoted [math]\displaystyle{ o(M) }[/math], that is trivialized by coordinate charts of the manifold [math]\displaystyle{ M }[/math], with transition maps the sign of the Jacobian determinant of the charts transition maps. As a flat line bundle, it has a de Rham cohomology, denoted by

[math]\displaystyle{ H^* (M; \R^w) }[/math] or [math]\displaystyle{ H^* (M; o(M)) }[/math].

For M a compact manifold, the top degree cohomology is equipped with a so-called trace morphism

[math]\displaystyle{ \theta\colon H^d (M; o(M)) \to \R }[/math],

that is to be interpreted as integration on M, i.e., evaluating against the fundamental class.

Poincaré duality for differential forms is then the conjunction, for M connected, of the following two statements:

  • The trace morphism is a linear isomorphism.
  • The cup product, or exterior product of differential forms
[math]\displaystyle{ \cup \colon H^* (M; \R)\otimes H^{d-*}(M, o(M)) \to H^d(M, o(M)) \simeq \R }[/math]

is non-degenerate.

The oriented Poincaré duality is contained in this statement, as understood from the fact that the orientation bundle o(M) is trivial if the manifold is oriented, an orientation being a global trivialization, i.e., a nowhere vanishing parallel section.

See also

References