nLab separated geometric morphism

Contents

Context

Topos Theory

Definition
Examples
Related concepts
References

Definition

A geometric morphism $f : \mathcal{X} \to \mathcal{Y}$ of toposes is separated if the diagonal $\mathcal{X} \to \mathcal{X} \times_{\mathcal{Y}} \mathcal{X}$ is a proper geometric morphism.

In particular if $\mathcal{Y}$ is the terminal object in Topos, hence the canonical base topos Set, we say that a topos $\mathcal{X}$ is a Hausdorff topos if $\mathcal{X} \to \mathcal{X} \times \mathcal{X}$ is a proper geometric morphism.

More generally, since there is a hierarchy of notions of proper geometric morphism, there is accordingly a hierarchy of separatedness conditions.

Examples

Proposition

For $G$ a discrete group and $\mathbf{B}G = (G \stackrel{\to}{\to} *)$ its delooping groupoid, the presheaf topos $G Set \simeq [\mathbf{B}G, Set]$ is Hausdorff precisely if $G$ is a finite group.

In (Johnstone) this is example C3.2.24

Related concepts

References

Chapter II of

Ieke Moerdijk, Jacob Vermeulen, Relative compactness conditions for toposes (pdf) and Proper maps of toposes , American Mathematical Society (2000)

Around def. C3.2.12 of

Peter Johnstone, Sketches of an Elephant

Last revised on May 9, 2012 at 03:54:31. See the history of this page for a list of all contributions to it.

nLab separated geometric morphism

Context

Topos Theory

Background

Toposes

Internal Logic

Topos morphisms

Extra stuff, structure, properties

Cohomology and homotopy

In higher category theory

Theorems