Green functions associated to complex reflection groups, II

Green functions of classical groups are determined by the data from Weyl groups and by certain combinatorial objects called symbols. Generalizing this, we Ž . define Green functions associated to complex reflection groups G e, 1, n and study their combinatorial properties. We construct Hall᎐Littlewo

Let W be the complex reflection group S n (Z/eZ) n . In the author's previous paper [J. Algebra 245 (2001) 650-694], Hall-Littlewood functions associated to W were introduced. In the special case where W is a Weyl group of type B n , they are closely related to Green polynomials of finite classical

The main purpose of this paper is to compute all irreducible spherical functions on G=SU(3) of arbitrary type d ¥ K ˆ, where K=S(U(2) × U(1)) 4 U(2). This is accomplished by associating to a spherical function F on G a matrix valued function H on the complex projective plane P 2 (C)=G/K. It is well

## Abstract In this second paper of the three‐part sequence, we deal with alternative Green's function (GF) representations for the subdomain (SD) problem in the complexity architecture of Part I [1]. The relevant GFs for systematic analytic modelling are those associated with at least partially ve