Abstract L-space

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In mathematics, specifically in order theory and functional analysis, an abstract L-space, an AL-space, or an abstract Lebesgue space is a Banach lattice [math]\displaystyle{ (X, \| \cdot \|) }[/math] whose norm is additive on the positive cone of X.[1] In probability theory, it means the standard probability space.[2]

Examples

The strong dual of an AM-space with unit is an AL-space.[1]

Properties

The reason for the name abstract L-space is because every AL-space is isomorphic (as a Banach lattice) with some subspace of [math]\displaystyle{ L^1(\mu). }[/math][1] Every AL-space X is an order complete vector lattice of minimal type; however, the order dual of X, denoted by X+, is not of minimal type unless X is finite-dimensional.[1] Each order interval in an AL-space is weakly compact.[1]

The strong dual of an AL-space is an AM-space with unit.[1] The continuous dual space [math]\displaystyle{ X^{\prime} }[/math] (which is equal to X+) of an AL-space X is a Banach lattice that can be identified with [math]\displaystyle{ C_{\R} ( K ) }[/math], where K is a compact extremally disconnected topological space; furthermore, under the evaluation map, X is isomorphic with the band of all real Radon measures 𝜇 on K such that for every majorized and directed subset S of [math]\displaystyle{ C_{\R} ( K ), }[/math] we have [math]\displaystyle{ \lim_{f \in S} \mu ( f ) = \mu ( \sup S ). }[/math][1]

See also

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 Schaefer & Wolff 1999, pp. 242–250.
  2. Takeyuki Hida, Stationary Stochastic Processes, p. 21