Quasi-compact morphism

In algebraic geometry, a morphism ${\displaystyle f:X\to Y}$ between schemes is said to be quasi-compact if Y can be covered by open affine subschemes ${\displaystyle V_i}$ such that the pre-images ${\displaystyle f^{-1}(V_i)}$ are compact.^[1] If f is quasi-compact, then the pre-image of a compact open subscheme (e.g., open affine subscheme) under f is compact.

It is not enough that Y admits a covering by compact open subschemes whose pre-images are compact. To give an example,^[2] let A be a ring that does not satisfy the ascending chain conditions on radical ideals, and put ${\displaystyle X=\mathrm{Spec}A}$. Then X contains an open subset U that is not compact. Let Y be the scheme obtained by gluing two X's along U. X, Y are both compact. If ${\displaystyle f:X\to Y}$ is the inclusion of one of the copies of X, then the pre-image of the other X, open affine in Y, is U—not compact. Hence, f is not quasi-compact.

A morphism from a quasi-compact scheme to an affine scheme is quasi-compact.

Let ${\displaystyle f:X\to Y}$ be a quasi-compact morphism between schemes. Then ${\displaystyle f(X)}$ is closed if and only if it is stable under specialization.

The composition of quasi-compact morphisms is quasi-compact. The base change of a quasi-compact morphism is quasi-compact.

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An affine scheme is quasi-compact. In fact, a scheme is quasi-compact if and only if it is a finite union of open affine subschemes. Serre’s criterion gives a necessary and sufficient condition for a quasi-compact scheme to be affine.

A quasi-compact scheme has at least one closed point.^[3]

• fpqc morphism

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• Template:Hartshorne AG
• Angelo Vistoli, "Notes on Grothendieck topologies, fibered categories and descent theory." Template:ArXiv

• When is an irreducible scheme quasi-compact?

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