TY - JOUR
T1 - Weyl group multiple Dirichlet series II
T2 - The stable case
AU - Brubaker, Ben
AU - Bump, Daniel
AU - Friedberg, Solomon
PY - 2006/8/1
Y1 - 2006/8/1
N2 - To each reduced root system Φ of rank r, and each sufficiently large integer n, we define a family of multiple Dirichlet series in r complex variables, whose group of functional equations is isomorphic to the Weyl group of Φ. The coefficients in these Dirichlet series exhibit a multiplicativity that reduces the specification of the coefficients to those that are powers of a single prime p. For each p, the number of nonzero such coefficients is equal to the order of the Weyl group, and each nonzero coefficient is a product of n-th order Gauss sums. The root system plays a basic role in the combinatorics underlying the proof of the functional equations.
AB - To each reduced root system Φ of rank r, and each sufficiently large integer n, we define a family of multiple Dirichlet series in r complex variables, whose group of functional equations is isomorphic to the Weyl group of Φ. The coefficients in these Dirichlet series exhibit a multiplicativity that reduces the specification of the coefficients to those that are powers of a single prime p. For each p, the number of nonzero such coefficients is equal to the order of the Weyl group, and each nonzero coefficient is a product of n-th order Gauss sums. The root system plays a basic role in the combinatorics underlying the proof of the functional equations.
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U2 - 10.1007/s00222-005-0496-2
DO - 10.1007/s00222-005-0496-2
M3 - Article
AN - SCOPUS:33745738088
SN - 0020-9910
VL - 165
SP - 325
EP - 355
JO - Inventiones Mathematicae
JF - Inventiones Mathematicae
IS - 2
ER -