The Stacks project

Lemma 29.50.5. Let $f : X \to Y$ be a birational morphism of schemes having finitely many irreducible components over a base scheme $S$. Assume one of the following conditions is satisfied

  1. $f$ is locally of finite type and $Y$ reduced,

  2. $f$ is locally of finite presentation.

Then there exist dense opens $U \subset X$ and $V \subset Y$ such that $f(U) \subset V$ and $f|_ U : U \to V$ is an isomorphism. In particular if $X$ and $Y$ are irreducible, then $X$ and $Y$ are $S$-birational.

Proof. There is an immediate reduction to the case where $X$ and $Y$ are irreducible which we omit. Moreover, after shrinking further and we may assume $X$ and $Y$ are affine, say $X = \mathop{\mathrm{Spec}}(A)$ and $Y = \mathop{\mathrm{Spec}}(B)$. By assumption $A$, resp. $B$ has a unique minimal prime $\mathfrak p$, resp. $\mathfrak q$, the prime $\mathfrak p$ lies over $\mathfrak q$, and $B_\mathfrak q = A_\mathfrak p$. By Lemma 29.50.3 we have $B_\mathfrak q = A_\mathfrak q = A_\mathfrak p$.

Suppose $B \to A$ is of finite type, say $A = B[x_1, \ldots , x_ n]$. There exist a $b_ i \in B$ and $g_ i \in B \setminus \mathfrak q$ such that $b_ i/g_ i$ maps to the image of $x_ i$ in $A_\mathfrak q$. Hence $b_ i - g_ ix_ i$ maps to zero in $A_{g_ i'}$ for some $g_ i' \in B \setminus \mathfrak q$. Setting $g = \prod g_ i g'_ i$ we see that $B_ g \to A_ g$ is surjective. If moreover $Y$ is reduced, then the map $B_ g \to B_\mathfrak q$ is injective and hence $B_ g \to A_ g$ is injective as well. This proves case (1).

Proof of (2). By the argument given in the previous paragraph we may assume that $B \to A$ is surjective. As $f$ is locally of finite presentation the kernel $J \subset B$ is a finitely generated ideal. Say $J = (b_1, \ldots , b_ r)$. Since $B_\mathfrak q = A_\mathfrak q$ there exist $g_ i \in B \setminus \mathfrak q$ such that $g_ i b_ i = 0$. Setting $g = \prod g_ i$ we see that $B_ g \to A_ g$ is an isomorphism. $\square$


Comments (2)

Comment #5383 by Bjorn Poonen on

In the statement, "may" should be "many".

There are also:

  • 2 comment(s) on Section 29.50: Birational morphisms

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