Box topology

This article is about a basic definition in topology.
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Definition

Let ${\displaystyle I}$ be an indexing set, and ${\displaystyle \{A_i{\}}_{i\in I}}$ be a family of topological spaces. Define:

${\displaystyle P:={\times }_{i\in I}{A}_i}$

to be the Cartesian product of the ${\displaystyle A_i}$s. The box topology is a topology on ${\displaystyle P}$ in terms of the topologies on ${\displaystyle A_i}$s defined in the following equivalent ways:

1. It is a topology with basis as the open boxes or open rectangles: sets of the form ${\displaystyle {\times }_{i\in I}{U}_i}$ where each ${\displaystyle U_i}$ is open in ${\displaystyle A_i}$
2. Given a basis for each space ${\displaystyle A_i}$, it is a topology with basis as sets of the form ${\displaystyle {\times }_{i\in I}{U}_i}$, where each ${\displaystyle U_i}$ is a basis element of ${\displaystyle A_i}$

Related notions

Product topology is a related, and more useful, topology on the Cartesian product of topological spaces. In fact, the default topology endowed on the Cartesian product of topological spaces is the product topology. The box topology and product topology are equal for products of only finitely many spaces. For infinite products, the product topology is a coarser topology, because it admits in its basis only those open rectangles where all but finitely many of the open sides are the whole space.

A list of properties of topological spaces closed under taking box products is available at Category:Properties of topological spaces closed under box products.