A generalization of Steinberg theory and an exotic moment map

Abstract

For a reductive group G, Steinberg established a map from the Weyl group to the set of nilpotent G-orbits by using moment maps on double flag varieties. In particular, in the case of the general linear group, it provides a geometric interpretation of the Robinson-Schensted correspondence between permutations and pairs of standard tableaux of the same shape. We extend Steinberg's approach to the case of a symmetric pair (G,K) to obtain two different maps, namely a generalized Steinberg map and an exotic moment map. Although the framework is general, in this paper we focus on the pair (G,K) = (GL2n(C), GLn(C) × GLn(C)). Then the generalized Steinberg map is a map from partial permutations to the pairs of nilpotent orbits in gln(C) . It involves a generalization of the classical Robinson--Schensted correspondence to the case of partial permutations. The other map, the exotic moment map, establishes a combinatorial map from the set of partial permutations to that of signed Young diagrams, i.e., the set of nilpotent K-orbits in the Cartan space (Lie(G)/Lie(K))* . We explain the geometric background of the theory and combinatorial algorithms which produce the above mentioned maps.