Pure submodule

In mathematics, especially in the field of module theory, the concept of pure submodule provides a generalization of direct summand, a type of particularly well-behaved piece of a module. Pure modules are complementary to flat modules and generalize Prüfer's notion of pure subgroups. While flat modules are those modules which leave short exact sequences exact after tensoring, a pure submodule defines a short exact sequence that remains exact after tensoring with any module. Similarly a flat module is a direct limit of projective modules, and a pure submodule defines a short exact sequence which is a direct limit of split exact sequences, each defined by a direct summand.

Definition

Let R be a ring (associative, with 1), and let M, P be modules over R. If i: PM is injective then P is a pure submodule of M if, for any R-module X, the natural induced map on tensor products i⊗idX:PXMX is injective.

Analogously, a short exact sequence

of R-modules is pure exact if the sequence stays exact when tensored with any R-module X. This is equivalent to saying that f(A) is a pure submodule of B.

Purity can also be expressed element-wise; it is really a statement about the solvability of certain systems of linear equations. Specifically, P is pure in M if and only if the following condition holds: for any m-by-n matrix (aij) with entries in R, and any set y1,...,ym of elements of P, if there exist elements x1,...,xn in M such that

then there also exist elements x1',..., xn' in P such that

Examples

is a short exact sequence of R modules, then:

  1. C is a flat module if and only if the exact sequence is pure exact for every A and B. From this we can deduce that over a von Neumann regular ring, every submodule of every R-module is pure. This is because every module over a von Neumann regular ring is flat. The converse is also true. (Lam & 1999, p.162)
  2. Suppose B is flat. Then the sequence is pure exact if and only if C is flat. From this one can deduce that pure submodules of flat modules are flat.
  3. Suppose C is flat. Then B is flat if and only if A is flat.

Equivalent characterization

A sequence is pure exact if and only if it is the filtered colimit (also known as direct limit) of split exact sequences

[1]
gollark: ++remind 1h <@319753218592866315> should be punished for admin abuse
gollark: +>markov
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gollark: ~q
gollark: ~np

References

  1. For abelian groups, this is proved in Fuchs (2015, Ch. 5, Thm. 3.4)
  • Fuchs, László (2015), Abelian Groups, Springer Monographs in Mathematics, Springer, ISBN 9783319194226
  • Lam, Tsit-Yuen (1999), Lectures on modules and rings, Graduate Texts in Mathematics No. 189, Berlin, New York: Springer-Verlag, ISBN 978-0-387-98428-5, MR 1653294
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