Lower limit topology

In mathematics, the lower limit topology or right half-open interval topology is a topology defined on the set R of real numbers; it is different from the standard topology on R (generated by the open intervals) and has a number of interesting properties. It is the topology generated by the basis of all half-open intervals [a,b), where a and b are real numbers.

The resulting topological space, sometimes written Rl and called the Sorgenfrey line after Robert Sorgenfrey, often serves as a useful counterexample in general topology, like the Cantor set and the long line. The product of Rl with itself is also a useful counterexample, known as the Sorgenfrey plane.

In complete analogy, one can also define the upper limit topology, or left half-open interval topology.

Properties

\bigl\{ [x, +\infty) \bigr\} \cup \Bigl\{ \bigl(-\infty, x - \tfrac{1}{n} \bigr) \,\Big|\, n \in \mathbb{N} \Bigr\}.
Since C is compact, this cover has a finite subcover, and hence there exists a real number a(x) such that the interval (a(x), x] contains no point of C apart from x. This is true for all x\in C. Now choose a rational number q(x) \in (a(x), x]\cap\mathbb{Q}. Since the intervals (a(x), x], parametrized by x \in C, are pairwise disjoint, the function q: C \to \mathbb{Q} is injective, and so C is at most countable.

References

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