Contact line bundles, foliations, and integrability

Abstract

We formulate the non-commutative integrability of contact systems on a contact manifold (M, H) using the Jacobi structure on the space of sections (L) of a contact line bundle L. In the cooriented case, if the line bundle is trivial and H is the kernel of a globally defined contact form α, the Jacobi structure on the space of sections reduces to the standard Jacobi structure on (M,α). We therefore treat contact systems on cooriented and non-cooriented contact manifolds simultaneously. In particular, this allows us to work with dissipative Hamiltonian systems where the Hamiltonian does not have to be preserved by the Reeb vector field.

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