Nagata's compactification theorem

In algebraic geometry, Nagata's compactification theorem, introduced by Nagata (1962, 1963), implies that every abstract variety can be embedded in a complete variety, and more generally shows that a separated and finite type morphism to a Noetherian scheme S can be factored into an open immersion followed by a proper morphism.

Nagata's original proof used the older terminology of Zariski–Riemann spaces and valuation theory, which sometimes made it hard to follow. Deligne showed, in unpublished notes expounded by Conrad, that Nagata's proof can be translated into scheme theory and that the condition that S is Noetherian can be replaced by the much weaker condition that S is quasi-compact and quasi-separated. Lütkebohmert (1993) gave another scheme-theoretic proof of Nagata's theorem.

An important application of Nagata's theorem is in defining the analogue in algebraic geometry of cohomology with compact support, or more generally higher direct image functors with proper support. The idea is that given a compactifiable morphism f : X S , {\displaystyle f:X\to S,} one defines R f ! {\displaystyle Rf_{!}} by choosing a factorization f = p j {\displaystyle f=p\circ j} by an open immersion j and proper morphism p, and then setting

R f ! = R p j {\displaystyle Rf_{!}=Rp_{*}\circ j_{\sharp }} ,

where j {\displaystyle j_{\sharp }} is the extension by zero functor. One then shows the independence of the definition from the choice of compactification.

In the context of étale sheaves, this idea was carried out by Deligne in SGA 4, Exposé XVII. In the context of coherent sheaves, the statements are more delicate since for an open immersion j, the inverse image functor j {\displaystyle j^{*}} does not usually admit a left adjoint. Nonetheless, j {\displaystyle j_{\sharp }} exists as a pro-left adjoint, and Deligne was able to define the functor R f ! {\displaystyle Rf_{!}} as valued in the pro-derived category of coherent sheaves.[1]

References

  1. ^ Hartshorne, Robin (1966), Residues and duality, Springer{{citation}}: CS1 maint: date and year (link) cf. Appendix by P. Deligne.
  • Stacks Project - Nagata compactification - See Lemma 38.33.8 first, then backtrack
  • Stacks Project - Derived lower shriek via compactifications
  • Stacks Project - Compactly supported cohomology for coherent modules
  • Conrad, B, Deligne's notes on Nagata's compactifications (PDF)
  • Lütkebohmert, Werner (1993), "On compactification of schemes", Manuscripta Mathematica, 80 (1): 95–111, doi:10.1007/BF03026540, ISSN 0025-2611
  • Nagata, Masayoshi (1962), "Imbedding of an abstract variety in a complete variety", Journal of Mathematics of Kyoto University, 2 (1): 1–10, doi:10.1215/kjm/1250524969, ISSN 0023-608X, MR 0142549
  • Nagata, Masayoshi (1963), "A generalization of the imbedding problem of an abstract variety in a complete variety", Journal of Mathematics of Kyoto University, 3 (1): 89–102, doi:10.1215/kjm/1250524859, ISSN 0023-608X, MR 0158892