In algebraic geometry, a reflexive sheaf is a coherent sheaf that is isomorphic to its second dual (as a sheaf of modules) via the canonical map. The second dual of a coherent sheaf is called the reflexive hull of the sheaf. A basic example of a reflexive sheaf is a locally free sheaf of finite rank and, in practice, a reflexive sheaf is thought of as a kind of a vector bundle modulo some singularity. The notion is important both in scheme theory and complex algebraic geometry.
For the theory of reflexive sheaves, one works over an integral noetherian scheme.
A reflexive sheaf is torsion-free. The dual of a coherent sheaf is reflexive.[1] Usually, the product of reflexive sheaves is defined as the reflexive hull of their tensor products (so the result is reflexive.)
A coherent sheaf F is said to be "normal" in the sense of Barth if the restriction is bijective for every open subset U and a closed subset Y of U of codimension at least 2. With this terminology, a coherent sheaf on an integral normal scheme is reflexive if and only if it is torsion-free and normal in the sense of Barth.[2] A reflexive sheaf of rank one on an integral locally factorial scheme is invertible.[3]
A divisorial sheaf on a scheme X is a rank-one reflexive sheaf that is locally free at the generic points of the conductor DX of X.[4] For example, a canonical sheaf (dualizing sheaf) on a normal projective variety is a divisorial sheaf.
See also
editNotes
edit- ^ Hartshorne 1980, Corollary 1.2.
- ^ Hartshorne 1980, Proposition 1.6.
- ^ Hartshorne 1980, Proposition 1.9.
- ^ Kollár, Ch. 3, § 1.
References
edit- Hartshorne, R. (1980). "Stable reflexive sheaves". Math. Ann. 254 (2): 121–176. doi:10.1007/BF01467074. S2CID 122336784.
- Hartshorne, R. (1982). "Stable reflexive sheaves. II". Invent. Math. 66: 165–190. Bibcode:1982InMat..66..165H. doi:10.1007/BF01404762. S2CID 122374039.
- Kollár, János. "Chapter 3". Book on Moduli of Surfaces.
Further reading
editExternal links
edit- Reflexive sheaves on singular surfaces
- Push-forward of locally free sheaves
- http://www-personal.umich.edu/~kschwede/GeneralizedDivisors.pdf