Cohomological descent
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In algebraic geometry, a cohomological descent is, roughly, a "derived" version of a fully faithful descent in the classical descent theory. This point is made precise by the below: the following are equivalent:[1] in an appropriate setting, given a map a from a simplicial space X to a space S,
- [math]\displaystyle{ a^*: D^+(S) \to D^+(X) }[/math] is fully faithful.
- The natural transformation [math]\displaystyle{ \operatorname{id}_{D^+(S)} \to Ra_* \circ a^* }[/math] is an isomorphism.
The map a is then said to be a morphism of cohomological descent.[2]
The treatment in SGA uses a lot of topos theory. Conrad's notes gives a more down-to-earth exposition.
See also
- hypercovering, of which a cohomological descent is a generalization
References
- ↑ Conrad n.d., Lemma 6.8.
- ↑ Conrad n.d., Definition 6.5.
- SGA4 Vbis [1]
- Conrad, Brian (n.d.). "Cohomological descent". http://math.stanford.edu/~conrad/papers/hypercover.pdf.
- P. Deligne, Théorie des Hodge III, Publ. Math. IHÉS 44 (1975), pp. 6–77.
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