The direct limit functor

Arun Ram
Department of Mathematics and Statistics
University of Melbourne
Parkville, VIC 3010 Australia
aram@unimelb.edu.au

Last update: 31 January 2012

The functor $\lim_{\to}$

A partially ordered set $I$ is right filtered if $I$ satisfies $\begin{array}{c} if x, y \in I then there exists γ \in I such that \\ γ \geq x and γ \geq y . \end{array}$

Let $A$ be a ring and let $I$ be a right filtered partially ordered set.

A direct system, or inductive system, indexed by $I$ is a collection ${(E_{α}, f_{β α})}_{\underset{α \leq β}{α, β \in I}}$ such that

$E_{α}$ are $A -$ modules
$f_{β α} : E_{α} \to E_{β}$ are morphisms of $A -$ modules

such that

If $α, β, γ \in I$ and $α \leq β \leq γ$ then $f_{γ α} = f_{γ β} \circ f_{β α}$
If $α \in I$ then $f_{α α} = {id}_{E_{α}} .$

Let $(E_{α}, f_{β α})$ and $(F_{α}, g_{β α})$ be direct systems indexed by $I$ .

A morphism from $(E_{α})$ to $(F_{α})$ is a collection ${(u_{α})}_{α \in I}$ of $A -$ module morphisms $u_{α} : E_{α} \to F_{α}$ such that $\begin{array}{c} if α, β \in I and α \leq β then g_{β α} \circ u_{α} = u_{β} \circ f_{β α} \end{array}$

Let $({&E}_{α}, f_{β α})$ be an inductive system indexed by $I$ . Let $\sim$ be the relation on the direct sum $⨁_{α} E_{α}$ (disjoint union $⨆_{α} E_{α}$ for sets) given by

if $x \in E_{α}$ and $y \in E_{β}$ then
$x \sim y$ if there exists $γ \in I$ such that $γ \geq α and γ \geq β and f_{γ α} (x) = f_{γ β} (y) .$

The direct limit, or inductive limit, of $(E_{α}, f_{β α})$ is $\lim_{\to} = \frac{⨁ E_{α}}{\sim}$ with morphisms $\begin{array}{rrcl} f_{α} : & E_{α} & \to & \lim_{\to} E_{α} \\ x & \mapsto & [x], \end{array}$ where $[x]$ is the equivalence class of $x$ in $\frac{(⨁ E_{α})}{\sim} .$

Let $u_{α} : E_{α} \to F_{α}$ be a morphism of direct systems. The direct limit, or inductive limit, of $u_{α}$ is $u = \lim_{\to} u_{α}$ given by $\begin{array}{rrcl} u : & \lim_{\to} E_{α} & \to & \lim_{\to} F_{α} \\ [x] & \mapsto & [u_{α} (x)], \end{array}$ for $x \in E_{α}$ .

Homework questions

HW 1:

The universal property of $\lim_{\to} E_{α} .$

Let $(E_{α}, f_{β α})$ be a directed system. Let $F$ be an $A -$ module with morphisms $v_{α} : E_{α} \to F$ such that $if α, β \in I and α \leq β then v_{β} \circ f_{β α} = v_{α},$ then there is a unique morphism $v : \lim_{\to} E_{α} \to F$ such that $if α \in I then v_{α} = u \circ f_{α} .$

HW 2:

$\lim_{\to}$ is a functor.

Show that $\lim_{\to} : {\begin{array}{c} direct systems \\ of A -modules \end{array}} \to {A, -modules}$ is a covariant functor: $\lim_{\to} (v_{α} \circ u_{α}) = (\lim_{\to} v_{α}) \circ (\lim_{\to} u_{α}) .$

HW 3:

$\lim_{\to}$ is an exact functor.

Notes and References

The basic theory of inductive limits appears in [Bou, Ens. Ch III §7], [Bou, Alg Ch I §10], [Bou, Alg Ch II §6] and [AM, Ch 2, Ex 14-19].

In particular, the solution to HW1 is given in [Bou, Ens. Ch III §7 No.6 Prop 6], the solution to HW2 is given in [Bou, Ens. Ch III §7 No.6 Cor 2] and the solution to HW3 is given in [Bou, Alg Ch II §6 No.2 Prop 3] (see also [AM, Ch 2, Ex 19]). All of these are routine enough that the mathematician experienced at writing proofs should have no need to refer to the solutions.

References

References?

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