Generalized theta functions
Dragos Oprea, Stanford

The Jacobian of any compact Riemann surface carries a natural theta divisor, which can be defined as the zero locus of an explicit function, the Riemann theta function. I will describe a generalization of this idea, which starts by replacing the Jacobian with the moduli space of sheaves over a Riemann surface or a higher dimensional base. These moduli spaces also carry theta divisors, described via "generalized" theta functions. I will discuss recent progress in the study of generalized theta functions. In particular, I will emphasize an unexpected geometric duality between spaces of generalized theta functions, as well as its geometric consequences for the study of the moduli spaces of sheaves.

Generalized theta functions Dragos Oprea, Stanford

Generalized theta functions
Dragos Oprea, Stanford