Linear topology explained

Linear topology should not be confused with Linear bus topology.

In algebra, a linear topology on a left

-module

is a topology on

that is invariant under translations and admits a fundamental system of neighborhood of

that consists of submodules of

If there is such a topology,

is said to be linearly topologized. If

is given a discrete topology, then

becomes a topological

-module with respect to a linear topology.

The notion is used more commonly in algebra than in analysis. Indeed, "[t]opological vector spaces with linear topology form a natural class of topological vector spaces over discrete fields, analogous to the class of locally convex topological vector spaces over the normed fields of real or complex numbers in functional analysis."

The term "linear topology" goes back to Lefschetz' work.^[1] ^[2]

Examples and non-examples

For each prime number p,

is linearly topologized by the fundamental system of neighborhoods

0\in … \subsetp²Z\subsetpZ\subsetZ

Topological vector spaces appearing in functional analysis are typically not linearly topologized (since subspaces do not form a neighborhood system).

References

Bourbaki, N. (1972). Commutative algebra (Vol. 8). Hermann.

Notes and References

Ch II, Definition 25.1. in Solomon Lefschetz, Algebraic Topology
Positselski . Leonid . Exact categories of topological vector spaces with linear topology . Moscow Math. Journal . 2024 . 24 . 2 . 219–286.