Decomposition of the longest element of the Weyl group using factors corresponding to the highest roots

Abstract

Let be a root system of a finite Weyl group W with simple roots and corresponding simple reflections S. For J ⊂eq S, denote by WJ the standard parabolic subgroup of W generated by J, and by J ⊂eq the subset corresponding to J. We show that the longest element of W is decomposed into a product of several ( ||) reflections corresponding to mutually orthogonal roots, each of which is either the highest root of some subset J ⊂eq or is a simple root. For each type of the root system, the factors of the specified decomposition are listed. The relationship between the longest elements of different types is found out. The uniqueness of the considered decomposition is shown. It turns out that subsets of highest roots, which give the decomposition of longest elements in the Weyl group, coincide with the cascade of orthogonal roots constructed by B.Kostant and A.Joseph for calculations in the universal enveloping algebra.