Carathéodory–Jacobi–Lie theorem

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Short description: Theorem in symplectic geometry which generalizes Darboux's theorem

The Carathéodory–Jacobi–Lie theorem is a theorem in symplectic geometry which generalizes Darboux's theorem.

Statement

Let M be a 2n-dimensional symplectic manifold with symplectic form ω. For p ∈ M and r ≤ n, let f1, f2, ..., fr be smooth functions defined on an open neighborhood V of p whose differentials are linearly independent at each point, or equivalently

[math]\displaystyle{ df_1(p) \wedge \ldots \wedge df_r(p) \neq 0, }[/math]

where {fi, fj} = 0. (In other words, they are pairwise in involution.) Here {–,–} is the Poisson bracket. Then there are functions fr+1, ..., fn, g1, g2, ..., gn defined on an open neighborhood U ⊂ V of p such that (fi, gi) is a symplectic chart of M, i.e., ω is expressed on U as

[math]\displaystyle{ \omega = \sum_{i=1}^n df_i \wedge dg_i. }[/math]

Applications

As a direct application we have the following. Given a Hamiltonian system as [math]\displaystyle{ (M,\omega,H) }[/math] where M is a symplectic manifold with symplectic form [math]\displaystyle{ \omega }[/math] and H is the Hamiltonian function, around every point where [math]\displaystyle{ dH \neq 0 }[/math] there is a symplectic chart such that one of its coordinates is H.

References