Adjunction formula (algebraic geometry)

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In mathematics, the adjunction formula of algebraic geometry and complex manifold theory relates, for a hypersurface, its normal bundle, its canonical bundle, and the canonical bundle of the ambient variety or manifold.

Let H be a hypersurface in a complex manifold M. Then firstly the canonical bundle of H is

K_M|_HL

where K_M is the canonical bundle of M, and the notation denotes its restriction to H, and L is the line bundle associated to H as Cartier divisor, restricted to H. (The product of line bundles is here implied, i.e. tensor product of line bundles.). Secondly, L more explicitly can be taken as the normal bundle N_H in M. This gives

K_H = K_M|_HN_H,

the adjunction formula.

For example, the formula for projective n-space is

K = O(−n − 1)

where O(1) is the Serre twist sheaf. This is compatible with the formula and the basic case n = 1, which states that

d(1/z) = −z^-2

on the Riemann sphere.