Conformal blocks and rational normal curves

Noah Giansiracusa

arXiv:1012.4835·math.AG·January 13, 2015

Conformal blocks and rational normal curves

Noah Giansiracusa

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Abstract

We prove that the Chow quotient parametrizing configurations of n points in $P^{d}$ which generically lie on a rational normal curve is isomorphic to $\overline{M}_{0, n}$ , generalizing the well-known $d = 1$ result of Kapranov. In particular, $\overline{M}_{0, n}$ admits birational morphisms to all the corresponding geometric invariant theory (GIT) quotients. For symmetric linearizations the polarization on each GIT quotient pulls back to a divisor that spans the same extremal ray in the symmetric nef cone of $\overline{M}_{0, n}$ as a conformal blocks line bundle. A symmetry in conformal blocks implies a duality of point-configurations that comes from Gale duality and generalizes a result of Goppa in algebraic coding theory. In a suitable sense, $\overline{M}_{0, 2 m}$ is fixed pointwise by the Gale transform when $d = m - 1$ so stable curves correspond to self-associated configurations.

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