Uniform boundedness principle

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In mathematics, the uniform boundedness principle or Banach-Steinhaus Theorem is one of the fundamental results in functional analysis. Together with the Hahn-Banach theorem and the open mapping theorem, it is considered one of the cornerstones of the field. In its basic form, it asserts that for a family of continuous linear operators whose domain is a Banach space, pointwise boundedness is equivalent to boundedness.

The theorem was first published in 1927 by Stefan Banach and Hugo Steinhaus but it was also proven independently by Hans Hahn.

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[edit] Uniform boundedness principle

The precise statement of the result is:

Theorem Let X be a Banach space and N be a normed vector space. Suppose that F is a collection of continuous linear operators from X to N. The uniform boundedness principle states that if for all x in X we have

\sup \left\{\,||T_\alpha (x)|| : T_\alpha \in F \,\right\} < \infty,

then

\sup \left\{\, ||T_\alpha|| : T_\alpha \in F \;\right\} < \infty.

Using the Baire category theorem, we have the following short proof:

For n = 1,2,3, ... let Xn = { x : ||T(x)|| ≤ n (∀ TF) } . By hypothesis, the union of all the Xn is X.
Since X is a Baire space, one of the Xn has an interior point, giving some δ > 0 and y in X such that ||x - y|| < δ ⇒ xXn.
For any x such that ||x|| ≤ δ, ||T(x)|| ≤ ||T(y - x)|| + ||T(y)|| ≤ n + n = 2n
Hence for all TF, ||T|| < 2n/δ, so that 2n/δ is a uniform bound for the set F.

A direct consequence is:

Theorem If a sequence of bounded operators {Tn} converges pointwise, that is, lim Tn(x) exists for all x in X, then these pointwise limits define a bounded operator T.

The convergence TnT is only uniform on compact subsets; the sequence may fail to converge in operator norm.

[edit] Generalization

The natural setting for the uniform boundedness principle is a barrelled space where the following generalized version of the theorem holds:

Given a barrelled space X and a locally convex space Y, then any family of pointwise bounded continuous linear mappings from X to Y is equicontinuous (even uniformly equicontinuous).

[edit] See also

[edit] References

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