Localization in categories
A construction associated with special radical subcategories; it first appeared in Abelian categories in the description of the so-called Grothendieck categories in terms of categories of modules over rings (cf. Grothendieck category). Let be an Abelian category. A full subcategory of is said to be thick if it contains all subobjects and quotient objects of its objects and is closed with respect to extension, that is, in an exact sequence
if and only if . The quotient category is constructed in the following way. Let be a subobject of the direct sum , where and are projections, and suppose that the square
is a pushout. The subobject is called an -subobject if . Two -subobjects are equivalent if they contain an -subobject. By definition, the set consists of equivalence classes of -subobjects of the direct sum . Ordinary composition of binary relations in an Abelian category is compatible with the equivalence introduced, which makes it possible to define the quotient category . This quotient category turns out to be an Abelian category. An exact functor can be defined by associating with each morphism its graph in . A thick subcategory is called a localizing subcategory if the functor has a full and faithful right adjoint . A localizing subcategory is always the subcategory of all radical objects for some hereditary radical.
In the category of Abelian groups the subcategory of all torsion groups is a localizing subcategory. The quotient category of any category of modules with respect to a localizing subcategory is a Grothendieck category. Conversely, any Grothendieck category is equivalent to a quotient category of a suitable category of modules.
The concept of a localizing subcategory can also be defined for non-Abelian categories . However, in the non-Abelian case there usually are few such subcategories. For example, in the category of associative rings there are only the two trivial localizing subcategories, namely the whole category and the full subcategory of it that contains only trivial rings.
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The term "dense subcategory" is sometimes used in place of "thick subcategory" ; but "dense subcategorydense subcategory" has another, conflicting, meaning. The term "Serre class18E40Serre class" is also used for this concept, particularly by algebraic topologists (cf. [a1]). A thick subcategory is a localizing subcategory if and only if: 1) every object of has a largest subobject in ; and 2) given an object for which this greatest subobject is , there exists a monomorphism , where has the property that each morphism in the quotient category derives from a unique morphism in (see [a2]). The quotient category may also be defined as a category of fractions (cf. [a3]), in which one formally adjoins inverses for these morphisms in which are "isomorphisms modulo A'" in the sense that their kernels and cokernels both belong to . The class of all isomorphisms modulo admits both a calculus of left fractions and a calculus of right fractions; this corresponds to the fact that the canonical functor is exact.
In the context of non-Abelian categories, a localization of a category is generally taken to mean a functor which is exact (i.e. preserves finite limits and colimits) and has a full and faithful right adjoint ; equivalently, the localization of may be identified with the (full, reflective) subcategories of which are the images of these right adjoints. Such localizations cannot be classified by localizing subcategories, as in the Abelian case, but various techniques have been developed for handling them in many particular cases of interest. For example, the "little Giraud theoremlittle Giraud theorem" classifies localizations of a functor category in terms of Grothendieck topologies on [a6]; more generally, the localizations of an arbitrary (elementary) topos are classified by Lawvere–Tierney topologies in [a7]. (See also [a8] for a topos-theoretic analogue of the notion of Serre class.) For localizations of algebraic categories (and more generally of locally presentable categories), see [a9] and [a10]. [a11] studies the ordered set of localizations of a given category; it turns out that under reasonable hypotheses this set is a complete lattice satisfying an infinite distributive law.
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Localization in categories. Encyclopedia of Mathematics. URL: http://www.encyclopediaofmath.org/index.php?title=Localization_in_categories&oldid=23890