Esakia duality
In mathematics, Esakia duality is the dual equivalence between the category of Heyting algebras and the category of Esakia spaces. Esakia duality provides an order-topological representation of Heyting algebras via Esakia spaces.
Let Esa denote the category of Esakia spaces and Esakia morphisms.
Let H be a Heyting algebra, X denote the set of prime filters of H, and ≤ denote set-theoretic inclusion on the prime filters of H. Also, for each a ∈ H, let φ(a) = {x ∈ X : a ∈ x}, and let τ denote the topology on X generated by {φ(a), X − φ(a) : a ∈ H}.
Theorem:[1] (X, τ, ≤) is an Esakia space, called the Esakia dual of H. Moreover, φ is a Heyting algebra isomorphism from H onto the Heyting algebra of all clopen up-sets of (X,τ,≤). Furthermore, each Esakia space is isomorphic in Esa to the Esakia dual of some Heyting algebra.
This representation of Heyting algebras by means of Esakia spaces is functorial and yields a dual equivalence between the categories
- HA of Heyting algebras and Heyting algebra homomorphisms
and
- Esa of Esakia spaces and Esakia morphisms.
References
- Esakia, Leo (1974). "Topological Kripke models". Soviet Math. 15 (1): 147–151.
- Esakia, L (1985). "Heyting Algebras I. Duality Theory". Metsniereba, Tbilisi.
- Bezhanishvili, N. (2006). Lattices of intermediate and cylindric modal logics (PDF). Amsterdam Institute for Logic, Language and Computation (ILLC). ISBN 978-90-5776-147-8.