2 - Representable Equivalences
Published online by Cambridge University Press: 12 August 2009
Summary
We are concerned with equivalences and dualities between subcategories of the categories of modules over rings. Henceforth, by “subcategory” we shall mean full subcategory that is closed under isomorphic images, and all functors between categories of modules are assumed to be additive.
Suppose C and D are subcategories of Mod-R and Mod-S, respectively. A functor H : C → D is an equivalence if there is a functor T : D → C such that T ∘ H and H ∘ T are naturally isomorphic to the identity functors 1C and 1D, respectively. When this is the case we write C ≈ D. By Theorem A.3.4 these natural isomorphisms can be taken to be of the form μ : T H → 1C and θ : 1D → H T where H μ ∘ θ H = 1H and μT ∘ T θ = 1T. That is, μ and θ, an arrow of adjunction and its quasi-inverse, establish T as a left adjoint of H (see Appendix A). If SVR is a bimodule, then we have functors
HomR(V, -) : Mod-R ⇄ Mod-S : (- ⊗S V),
and we say that the equivalence H : C ⇄ D : T is representable by SVR if H and T are naturally isomorphic to the restrictions of these functors, that is,
H ≅ HomR(V, -)|C and T ≅ (- ⊗S V)|D.
In this case we shall make the identifications
and then by Theorem A.2.2 the canonical natural transformations ν and η defined beloware natural isomorphisms when restricted to C and D, respectively.
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- Publisher: Cambridge University PressPrint publication year: 2004