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Appendix C - Topology of algebraic varieties

Published online by Cambridge University Press:  05 March 2016

David Eisenbud
Affiliation:
University of California, Berkeley
Joe Harris
Affiliation:
Harvard University, Massachusetts
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Summary

Throughout this appendix we work with projective varieties X ⊂ ℙN —that is, with complex projective varieties. We can also view such a variety as a complex analytic, or holomorphic, subvariety of ℙN —that is, a subset locally defined by the vanishing of analytic equations—or, if X is smooth, as a complex submanifold of ℙNC. The topology induced from the standard topology on ℙN, referred to as the classical, or sometimes analytic, topology, is much finer than the Zariski topology with which we have dealt in this text. Using it, we can consider geometric invariants of X such as the singular homology and cohomology groups H*(X, ℤ) and H*(X,ℤ).

In this appendix, we explain a little of what is known about such invariants. Throughout, when we speak of topological properties of X, we refer to the classical, or analytic, topology.

GAGA theorems

One might think that there would be many more holomorphic subvarieties of ℙN than algebraic subvarieties, or that in passing from a smooth projective variety X over ℂ to its underlying complex manifold we would be losing information, since regular functions are holomorphic but not conversely. But this is not the case:

Theorem C.1 (Chow). Every holomorphic subvariety of ℙN is algebraic.

See for example Griffiths and Harris [1994, Section I.3] for a proof. Many further results in this direction were proven in Serre [1955/1956]. These are collectively known as the GAGA theorems, after the name of Serre's paper (“Géométrie algébrique et géométrie analytique”).

It follows immediately from Chow's theorem that if X and Y are projective varieties over C then any holomorphic map f : X → Y is algebraic (Proof: Apply Theorem C.1 to the graph ΓfX × Y). Not quite so immediate are the facts that any holomorphic vector bundle on a projective variety is algebraic and that if ε is any such vector bundle on X then any global holomorphic section of ε is algebraic. More generally, the Čech cohomology groups of ε will be the same, whether computed for the sheaf of holomorphic sections of ε in the analytic topology or the sheaf of regular sections in the Zariski topology.

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3264 and All That
A Second Course in Algebraic Geometry
, pp. 543 - 563
Publisher: Cambridge University Press
Print publication year: 2016

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