Symplectization

In mathematics, the symplectization of a contact manifold is a symplectic manifold which naturally corresponds to it.

Definition

Let $(V,\xi)$ be a contact manifold, and let $x \in V$ . Consider the set

S_xV = \{\beta \in T^*_xV - \{ 0 \} \mid \ker \beta = \xi_x\} \subset T^*_xV

of all nonzero 1-forms at $x$ , which have the contact plane $\xi_x$ as their kernel. The union

SV = \bigcup_{x \in V}S_xV \subset T^*V

is a symplectic submanifold of the cotangent bundle of $V$ , and thus possesses a natural symplectic structure.

The projection $\pi : SV \to V$ supplies the symplectization with the structure of a principal bundle over $V$ with structure group $\R^* \equiv \R - \{0\}$ .

The coorientable case

When the contact structure $\xi$ is cooriented by means of a contact form $\alpha$ , there is another version of symplectization, in which only forms giving the same coorientation to $\xi$ as $\alpha$ are considered:

S^+_xV = \{\beta \in T^*_xV - \{0\} \,|\, \beta = \lambda\alpha,\,\lambda > 0\} \subset T^*_xV,

S^+V = \bigcup_{x \in V}S^+_xV \subset T^*V.

Note that $\xi$ is coorientable if and only if the bundle $\pi : SV \to V$ is trivial. Any section of this bundle is a coorienting form for the contact structure.

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