Genus g Zhu Recursion for Vertex Operator Algebras and Their Modules

Abstract

We describe Zhu recursion for a vertex operator algebra (VOA) and its modules on a genus g Riemann surface in the Schottky uniformisation. We show that n-point (intertwiner) correlation functions are written as linear combinations of (n-1)-point functions with universal coefficients given by derivatives of the differential of the third kind, the Bers quasiform and certain holomorphic forms. We use this formula to describe conformal Ward identities framed in terms of a canonical differential operator which acts with respect to the Schottky moduli and to the insertion points of the n-point function. We consider the generalised Heisenberg VOA and determine all its correlation functions by Zhu recursion. We also use Zhu recursion to derive linear partial differential equations for the Heisenberg VOA partition function and various structures such as the bidifferential of the second kind, holomorphic 1-forms, the prime form and the period matrix. Finally, we compute the genus g partition function for any rational Euclidean lattice generalised VOA.

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