In general topology, a branch of mathematics, the integer broom topology is an example of a topology on the so-called integer broom space X.
The integer broom space X is a subset of the plane R<sup>2</sup>. Assume that the plane is parametrised by polar coordinates. The integer broom contains the origin and the points such that n is a non-negative integer and }, where Z<sup>+</sup> is the set of positive integers. The image on the right gives an illustration for and . Geometrically, the space consists of a collection of convergent sequences. For a fixed n, we have a sequence of points â lying on circle with centre (0, 0) and radius n â that converges to the point (n, 0).
We define the topology on X by means of a product topology. The integer broom space is given by the polar coordinates
Let us write for simplicity. The integer broom topology on X is the product topology induced by giving U the right order topology, and V the subspace topology from R.
The integer broom space, together with the integer broom topology, is a compact topological space. It is a T<sub>0</sub> space, but it is neither a T<sub>1</sub> space nor a Hausdorff space. The space is path connected, while neither locally connected nor arc connected.