Geometric quantization of Chern-Simons gauge theory

Abstract

We present a new construction of the quantum Hilbert space of Chem-Simons gauge theory using methods which are natural from the three-dimensional point of view. To show that the quantum Hilbert space associated to a Riemann surface ∑ is independent of the choice of complex structure on ∑, we construct a natural projectively flat connection on the quantum Hilbert bundle over Teichmiiller space. This connection has been previously constructed in the context of two-dimensional conformal field theory where it is interpreted as the stress energy tensor. Our construction thus gives a (2+ l)-dimensional derivation of the basic properties of (1 + 1 )-dimensional current algebra. To construct the connection we show generally that for affine symplectic quotients the natural projectively flat connection on the quantum Hilbert bundle may be expressed purely in terms of the intrinsic Kahler geometry of the quotient and the Quillen connection on a certain determinant line bundle. The proof of most of the properties of the connection we construct follows surprisingly simply from the index theorem identities for the curvature of the Quillen connection. As an example, we treat the case when ∑ has genus one explicitly. We also make some preliminary comments concerning the Hilbert space structure. © 1991, International Press of Boston, Inc. All Rights Reserved.