Group valued moment maps for even and odd simple $G$-modules

Abstract

Let $G$ be a simple Lie group, and $\mathfrak{g}$ its Lie algebra. It is well known that a $G$-module $V$ carrying an invariant symplectic form or an invariant scalar product gives rise to a Hamiltonian Poisson space with a quadratic moment maps $\mu$. We show that under condition ${\rm Hom}_{\mathfrak{g}}(\wedge^3 V, S^3V)=0$ this space can be viewed as a quasi-Poisson space with the same bivector, and with the group valued moment map $\Phi = \exp \circ \mu$. Furthermore, we show that by modifying the bivector by the standard $r$-matrix for $\mathfrak{g}$ one obtains a space with a Poisson action of the Poisson-Lie group $G$, and with the moment map in the sense of Lu taking values in the dual Poisson-Lie group $G^\ast$.

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