Toshiyuki Kobayashi, Yoshiki Oshima
Published 2012-02-26, updated 2013-05-15Version 2
We give a complete classification of reductive symmetric pairs (g, h) with the following property: there exists at least one infinite-dimensional irreducible (g,K)-module X that is discretely decomposable as an (h,H \cap K)-module. We investigate further if such X can be taken to be a minimal representation, a Zuckerman derived functor module A_q(\lambda), or some other unitarizable (g,K)-module. The tensor product $\pi_1 \otimes \pi_2$ of two infinite-dimensional irreducible (g,K)-modules arises as a very special case of our setting. In this case, we prove that $\pi_1 \otimes \pi_2$ is discretely decomposable if and only if they are simultaneously highest weight modules.
Comments: To appear in Crelles J. (19 pages)
Related articles:
Construction of irreducible $\mathcal{U}(\mathfrak{g})^{G'}$-modules and discretely decomposable restrictions
Multiplicity-free theorems of the restrictions of unitary highest weight modules with respect to reductive symmetric pairs
Discretely decomposable restrictions of $(\mathfrak{g},K)$-modules for Klein four symmetric pairs of exceptional Lie groups of Hermitian type
![QR code for arXiv:1202.5743 [math.RT]](http://oss.arxitics.com/images/favicon.svg)