Scott continuity

A Scott-continuous function is always monotonic, meaning that if ${\displaystyle A\leq _{P}B}$ for ${\displaystyle A,B\subset P}$ , then ${\displaystyle f(A)\leq _{Q}f(B)}$ .

A subset of a directed complete partial order is closed with respect to the Scott topology induced by the partial order if and only if it is a lower set and closed under suprema of directed subsets.^[4]

A directed complete partial order (dcpo) with the Scott topology is always a Kolmogorov space (i.e., it satisfies the T₀ separation axiom).^[4] However, a dcpo with the Scott topology is a Hausdorff space if and only if the order is trivial.^[4] The Scott-open sets form a complete lattice when ordered by inclusion.^[5]

For any Kolmogorov space, the topology induces an order relation on that space, the specialization order: x ≤ y if and only if every open neighbourhood of x is also an open neighbourhood of y. The order relation of a dcpo D can be reconstructed from the Scott-open sets as the specialization order induced by the Scott topology. However, a dcpo equipped with the Scott topology need not be sober: the specialization order induced by the topology of a sober space makes that space into a dcpo, but the Scott topology derived from this order is finer than the original topology.^[4]

The open sets in a given topological space when ordered by inclusion form a lattice on which the Scott topology can be defined. A subset X of a topological space T is compact with respect to the topology on T (in the sense that every open cover of X contains a finite subcover of X) if and only if the set of open neighbourhoods of X is open with respect to the Scott topology.^[5]

For CPO, the cartesian closed category of dcpo's, two particularly notable examples of Scott-continuous functions are curry and apply.^[6]

Nuel Belnap used Scott continuity to extend logical connectives to a four-valued logic.^[7]

• Alexandrov topology
• Upper topology

• "Scott Topology". PlanetMath.