Slice theorem (differential geometry)

In differential geometry, the slice theorem states:^[1] given a manifold M on which a Lie group G acts as diffomorphisms, for any x in M, the map ${\displaystyle G/G_{x}\to M,[g]\mapsto g\cdot x}$ extends to a neighborhood of ${\displaystyle G/G_{x}}$ (viewed as a zero section) in ${\displaystyle G\times _{G_{x}}T_{x}M/T_{x}(G\cdot x)}$ so that it defines an equivariant diffomorphism from the neighborhood to its image, which contains the the orbit of x.

The important application of the theorem is a proof of the fact that the quotient ${\displaystyle M/G}$ admits a manifold structure when G is compact and he action is free.

Since G is compact, there exists an invariant metric; i.e., G acts as isometries. One then adopts the usual proof of the existence of a tubular neighborhood using this metric.

• Michele Audin, Torus actions on symplectic manifolds, Birkhauser, 2004

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