Fay's trisecant identity explained

In algebraic geometry, Fay's trisecant identity is an identity between theta functions of Riemann surfaces introduced by . Fay's identity holds for theta functions of Jacobians of curves, but not for theta functions of general abelian varieties.

The name "trisecant identity" refers to the geometric interpretation given by, who used it to show that the Kummer variety of a genus g Riemann surface, given by the image of the map from the Jacobian to projective space of dimension

2^g-1

induced by theta functions of order 2, has a 4-dimensional space of trisecants.

Statement

Suppose that

is a compact Riemann surface

is the genus of

\theta

is the Riemann theta function of

, a function from

C^g

is a prime form on

C x C

are points of

is an element of

C^g

\omega

is a 1-form on

with values in

C^g

The Fay's identity states that

	x+y
\begin{align} &E(x,v)E(u,y)\theta\left(z+\int
	u+v

\omega\right) \end{align}

with

	x+y
\begin{align} &\int
	u+v

	x\omega \end{align}
\omega=\int
	v