Order bound dual


In mathematics, specifically in order theory and functional analysis, the order bound dual of an ordered vector space X is the set of all linear functionals on X that map order intervals to bounded sets.
The order bound dual of X is denoted by Xb. This space plays an important role in the theory of ordered topological vector spaces.

Canonical ordering

An element f of the order bound dual of X is called positive if x ≥ 0 implies Re ≥ 0.
The positive elements of the order bound dual form a cone that induces an ordering on Xb called the canonical ordering.
If X is an ordered vector space whose positive cone C is generating then the order bound dual with the canonical ordering is an ordered vector space.

Properties

The order bound dual of an ordered vector spaces contains its order dual.
If the positive cone of an ordered vector space X is generating and if for all positive x and y we have + = , then the order dual is equal to the order bound dual, which is an order complete vector lattice under its canonical ordering.
Suppose X is a vector lattice and f and g are order bounded linear forms on X.
Then for all x in X,
  1. sup = sup
  2. inf = inf
  3. |f| = sup
  4. |f| ≤ |f|
  5. if f ≥ 0 and g ≥ 0 then f and g are lattice disjoint if and only if for each x ≥ 0 and real r > 0, there exists a decomposition x = a + b with a ≥ 0, b ≥ 0, and f + gr.