The method of coadjoint orbits suggests that irreducible unitary representations of a
Lie group $G$ are something like quantum mechanical systems. In fact finding all irreducible unitary representation of nilpotent lie groups correspounds to geometric quantization of coadjoint orbits. In fact quantiz
ation problem comes down to a finite set of coadjoint orbits for each reductive group: the nilpotent orbits.


 In symplectic geometry: quantization commutes with reduction :



states that the space of global sections of a line bundle satisfying the quantization condition on the symplectic quotient of a compact symplectic manifold is the space of invariant sections of the line bundle.

In topology, Geometric quantization is related to K-theory: About the conjecture quantisation co
mmutes with reduction for noncompact simple groups the only finite dimensional unitary representations are direct sums of the trivial one which  by Landsman's idea we can replace the representation ring of a group by the
K-theory of its
$C^∗$-algebra, and the $K$-index by the analytic assembly map.