Topological vector lattice


In mathematics, specifically in functional analysis and order theory, a topological vector lattice is a Hausdorff topological vector space X that has a partial order ≤ making it into vector lattice that is possesses a neighborhood base at the origin consisting of solid sets.
Ordered vector lattices have important applications in spectral theory.

Definition

If X is a vector lattice then by the vector lattice operations we mean the following maps:
  1. the three maps X to itself defined by,,, and
  2. the two maps from into X defined by and.
If X is a TVS over the reals and a vector lattice, then X is locally solid if and only if its positive cone is a normal cone, and the vector lattice operations are continuous.
If X is a vector lattice and an ordered topological vector space that is a Fréchet space in which the positive cone is a normal cone, then the lattice operations are continuous.
If X is a topological vector space and an ordered vector space then X is called locally solid if X possesses a neighborhood base at the origin consisting of solid sets.
A topological vector lattice is a Hausdorff TVS X that has a partial order ≤ making it into vector lattice that is locally solid.

Properties

Every topological vector lattice has a closed positive cone and is thus an ordered topological vector space.
Let denote the set of all bounded subsets of a topological vector lattice with positive cone C and for any subset S, let be the C-saturated hull of S.
Then the topological vector lattice's positive cone C is a strict -cone, where C is a strict -cone means that is a fundamental subfamily of .
If a topological vector lattice X is order complete then every band is closed in X.

Examples

The Banach spaces Lp space| are Banach lattices under their canonical orderings.
These spaces are order complete for.