The saturation property for refined Littlewood-Richardson coefficients

Abstract

Given dominant integral weights λ, μ, of a finite-dimensional simple Lie algebra g and an element w of its Weyl group, the refined tensor product multiplicity cλ μ(w) is the multiplicity of the irreducible g-module V() in the so-called Kostant--Kumar submodule K(λ, w, μ) of the tensor product V(λ) V(μ). We derive properties of these coefficients in general type, including a Brauer--Klimyk type formula and restriction theorems. In type A, we obtain a hive model for the cλ μ(w) and prove that the saturation and strong semigroup properties hold if the permutation w is 312-avoiding, 231-avoiding, or a commuting product of such elements. This generalizes the classical Knutson--Tao saturation theorem.