Étale morphism: Difference between revisions

The Weil Conjectures

Definition

The following conditions are equivalent for a morphism of schemes ${\displaystyle f:X\to Y}$:

1. ${\displaystyle f}$ is flat and unramified.
2. ${\displaystyle f}$ is flat and the sheaf of Kähler differentials is zero; ${\displaystyle \Omega _{X/Y}=0}$.
3. ${\displaystyle f}$ is ${\displaystyle smooth}$ of relative dimension 0.

The small étale site

The category of étale ${\displaystyle S}$-schemes becomes a Grothendieck topology, if one defines the sets of coverings to be jointly-surjective collections of ${\displaystyle S}$-morphisms ${\displaystyle \{f_{i}:U_{i}\to U\}}$; i.e., such that the union of images ${\displaystyle \bigcup f_{i}(U_{i})}$ covers ${\displaystyle U}$. That this forms a grothendieck essentially follows from the following three facts:

1. Open immersions are étale.
2. The étale property lifts by base change: that is, if ${\displaystyle f:X\to Y}$ is an étale morphism, and ${\displaystyle g:Y'\to Y}$ is any morphism, then the canonical fibered projection ${\displaystyle f'X\times _{Y}Y'\to Y'}$ is again étale.
3. If ${\displaystyle f:X\to Y}$ and ${\displaystyle g:Y\to Z}$ are such that ${\displaystyle g\circ f}$ is étale, then ${\displaystyle f}$ is étale as well.

Étale cohomology

${\displaystyle l}$-adic cohomology