Classifying topos
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 | This article may be too technical for most readers to understand. (November 2020) |
In mathematics, a classifying topos for some sort of structure is a topos T such that there is a natural equivalence between geometric morphisms from a cocomplete topos E to T and the category of models for the structure in E.
Examples
[edit | edit source]- The classifying topos for objects of a topos is the topos of presheaves over the opposite of the category of finite sets.
- The classifying topos for rings of a topos is the topos of presheaves over the opposite of the category of finitely presented rings.
- The classifying topos for local rings of a topos is the topos of sheaves over the opposite of the category of finitely presented rings with the Zariski topology.
- The classifying topos for linear orders with distinct largest and smallest elements of a topos is the topos of simplicial sets.
- If G is a discrete group, the classifying topos for G-torsors over a topos is the topos BG of G-sets.
- The classifying space of topological groups in homotopy theory.
References
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External links
[edit | edit source]- Classifying topos at the nLab
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