Poincaré divisor

The divisor given by the natural polarization over the Jacobian (cf. Jacobi variety) of an algebraic curve. The intersection form of one-dimensional cycles in the homology of an algebraic curve $ X $ induces a unimodular skew-symmetric form on the lattice of periods. By the definition of a polarized Abelian variety (cf. Polarized algebraic variety) this form determines the principal polarization over the Jacobian $ J ( X) $ of the curve. Therefore the effective divisor $ \Theta \subset J ( X) $ given by this polarization is uniquely determined up to translation by an element $ x \in J ( X) $. The geometry of the Poincaré divisor $ \Theta $ reflects the geometry of the algebraic curve $ X $. In particular, the set of singular points of the Poincaré divisor has dimension $ \mathop{\rm dim} _ {\mathbf C} \sing \Theta \geq g - 4 $, where $ g $ is the genus of the curve $ X $( see [1]).

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Comments

The above divisor is usually called the theta divisor of the Jacobi variety. For the rich geometry connected with it see, for instance, the books [a1], [a2] and [a3] and the survey articles [a4] and [a5].

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