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arxiv: math/0111147 · v1 · submitted 2001-11-13 · 🧮 math.AG

On the irreducibility of secant cones, and an application to linear normality

classification 🧮 math.AG
keywords subsetgenericirreducibilitylinearnormalitysecantsigmasubvariety
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Let $Y \subset \P^r$ be a normal nondegenerate m-dimensional subvariety and let $\sigma(Y)$ denote the maximum dimension of a subvariety $Z \subset Y_{smooth}$ such that $Z$ contains a generic point of some divisor on $Y$ and the tangent planes $T_y Y$ for all $y \in Z$ are contained in a fixed hyperplane. In this article we study the double locus $D \subset $Y$ of its generic projection to $\P^{r-1}$, proving that if the secant variety of $Y$ is the whole space and $\sigma(Y) < 2m - r + 1$, then $D$ is irreducible. Applying Zak's Tangency theorem we deduce the irreducibility of $D$ when $m > 2(r-1)/3$. The latter implies a version of Zak's Linear Normality theorem.

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