Quotient space of an algebraic stack

In algebraic geometry, the quotient space of an algebraic stack F, denoted by |F|, is a topological space which as a set is the set of all integral substacks of F and which then is given a "Zariski topology": an open subset has a form $|U|\subset |F|$ for some open substack U of F.^[1]

The construction $X\mapsto |X|$ is functorial; i.e., each morphism $f:X\to Y$ of algebraic stacks determines a continuous map $f:|X|\to |Y|$ .

An algebraic stack X is punctual if $|X|$ is a point.

When X is a moduli stack, the quotient space $|X|$ is called the moduli space of X. If $f:X\to Y$ is a morphism of algebraic stacks that induces a homeomorphism $f:|X|{\overset {\sim }{\to }}|Y|$ , then Y is called a coarse moduli stack of X. ("The" coarse moduli requires a universality.)

References

^ In other words, there is a natural bijection between the set of all open immersions to F and the set of all open subsets of $|F|$ .

H. Gillet, Intersection theory on algebraic stacks and Q-varieties, J. Pure Appl. Algebra 34 (1984), 193–240, Proceedings of the Luminy conference on algebraic K-theory (Luminy, 1983).

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[1] In other words, there is a natural bijection between the set of all open immersions to F and the set of all open subsets of $|F|$ .

[1]