ON FINITARY FUNCTORS

ON FINITARY FUNCTORS

A simple criterion for a functor to be finitary is presented: we call F finitely bounded if for all objects X every finitely generated subobject of F X factorizes through the F-image of a finitely generated subobject of X. This is equivalent to F being finitary for all functors between 'reasona...

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Veröffentlicht in:Theory and applications of categories 2019-01, Vol.34 (35), p.1134
Hauptverfasser: Adamek, J, Milius, S, Sousa, L, Wissmann, T
Format: Artikel
Sprache:eng
Schlagworte:
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Algebra
Boolean algebra
Categories
Classification
Finite element analysis
Mathematical functions
Metric space
Set theory
Theorems
Vector spaces
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Zusammenfassung:A simple criterion for a functor to be finitary is presented: we call F finitely bounded if for all objects X every finitely generated subobject of F X factorizes through the F-image of a finitely generated subobject of X. This is equivalent to F being finitary for all functors between 'reasonable' locally finitely presentable categories, provided that F preserves monomorphisms. We also discuss the question when that last assumption can be dropped. The answer is affirmative for functors between categories such as Set, K-Vec (vector spaces), boolean algebras, and actions of any finite group either on Set or on K-Vec for fields K of characteristic 0. All this generalizes to locally λ-presentable categories, λ-accessible functors and λpresentable algebras. As an application we obtain an easy proof that the Hausdorff functor on the category of complete metric spaces is ℵ1-accessible.
ISSN:1201-561X