Involutions and linear systems on holomorphic symplectic manifolds
Abstract
A K3 surface with an ample divisor of self-intersection 2 is a double cover of the plane branched over a sextic curve. We conjecture that a similar statement holds for the generic couple (X,H) with X a deformation of (K3)[n] and H an ample divisor of square 2 for Beauville's quadratic form. If n=2 then according to the conjecture X is a double cover of a (singular) sextic 4-fold in 5. It follows from the conjecture that a deformation of (K3)[n] carrying a divisor (not necessarily ample) of degree 2 has an anti-symplectic birational involution. We test the conjecture. In doing so we bump into some interesting geometry: examples of two anti-symplectic involutions generating an interesting dynamical system, a case of Strange duality and what is probably an involution on the moduli space of degree-2 quasi-polarized (X,H) where X is a deformation of (K3)[2].
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