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Dixmier–Ng theorem

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In functional analysis, the Dixmier–Ng theorem is a characterization of when a normed space is in fact a dual Banach space. It was proven by Kung-fu Ng, who called it a variant of a theorem proven earlier by Jacques Dixmier.

Dixmier-Ng theorem. Let X {\displaystyle X} be a normed space. The following are equivalent:
  1. There exists a Hausdorff locally convex topology τ {\displaystyle \tau } on X {\displaystyle X} so that the closed unit ball, B X {\displaystyle \mathbf {B} _{X}} , of X {\displaystyle X} is τ {\displaystyle \tau } -compact.
  2. There exists a Banach space Y {\displaystyle Y} so that X {\displaystyle X} is isometrically isomorphic to the dual of Y {\displaystyle Y} .

That 2. implies 1. is an application of the Banach–Alaoglu theorem, setting τ {\displaystyle \tau } to the Weak-* topology. That 1. implies 2. is an application of the Bipolar theorem.

Applications

Let M {\displaystyle M} be a pointed metric space with distinguished point denoted 0 M {\displaystyle 0_{M}} . The Dixmier-Ng Theorem is applied to show that the Lipschitz space Lip 0 ( M ) {\displaystyle {\text{Lip}}_{0}(M)} of all real-valued Lipschitz functions from M {\displaystyle M} to R {\displaystyle \mathbb {R} } that vanish at 0 M {\displaystyle 0_{M}} (endowed with the Lipschitz constant as norm) is a dual Banach space.

References

  1. ^ Ng, Kung-fu (December 1971), "On a theorem of Dixmier", Mathematica Scandinavica, 29: 279–280, doi:10.7146/math.scand.a-11054
  2. Dixmier, J. (December 1948), "Sur un théorème de Banach", Duke Mathematical Journal, 15 (4): 1057–1071, doi:10.1215/s0012-7094-48-01595-6
  3. Godefroy, G.; Kalton, N. J. (2003), "Lipschitz-free Banach spaces", Studia Mathematica, 159 (1): 121–141, doi:10.4064/sm159-1-6
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