Weyl invariant E8 Jacobi forms

Abstract

We investigate the Jacobi forms for the root system E8 invariant under the Weyl group. This type of Jacobi forms has significance in Frobenius manifolds, Gromov--Witten theory and string theory. In 1992, Wirthm\"uller proved that the space of Jacobi forms for any irreducible root system not of type E8 is a polynomial algebra. But very little has been known about the case of E8. In this paper we show that the bigraded ring of Weyl invariant E8 Jacobi forms is not a polynomial algebra and prove that every such Jacobi form can be expressed uniquely as a polynomial in nine algebraically independent Jacobi forms introduced by Sakai with coefficients which are meromorphic SL(2,Z) modular forms. The latter result implies that the space of Weyl invariant E8 Jacobi forms of fixed index is a free module over the ring of SL(2,Z) modular forms and that the number of generators can be calculated by a generating series. We determine and construct all generators of small index. These results give a proper extension of the Chevalley type theorem to the case of E8.