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It is a classic result in modal logic, often referred to as Jónsson-Tarski duality, that the category of modal algebras is dually equivalent to the category of descriptive frames. The latter are Kripke frames equipped with a Stone topology such that the binary relation is continuous. This duality generalizes the celebrated Stone duality for boolean algebras. Our goal is to generalize descriptive frames so that the topology is an arbitrary compact Hausdorff topology. For this, instead of working with the boolean algebra of clopen subsets of a Stone space, we work with the ring of continuous real-valued functions on a compact Hausdorff space. The main novelty is to define a modal operator on such a ring utilizing a continuous relation on a compact Hausdorff space.
Our starting point is the well-known Gelfand duality between the category
${\sf KHaus}$
of compact Hausdorff spaces and the category
$\boldsymbol {\mathit {uba}\ell }$
of uniformly complete bounded archimedean
$\ell $
-algebras. We endow a bounded archimedean
$\ell $
-algebra with a modal operator, which results in the category
$\boldsymbol {\mathit {mba}\ell }$
of modal bounded archimedean
$\ell $
-algebras. Our main result establishes a dual adjunction between
$\boldsymbol {\mathit {mba}\ell }$
and the category
${\sf KHF}$
of what we call compact Hausdorff frames; that is, Kripke frames equipped with a compact Hausdorff topology such that the binary relation is continuous. This dual adjunction restricts to a dual equivalence between
${\sf KHF}$
and the reflective subcategory
$\boldsymbol {\mathit {muba}\ell }$
of
$\boldsymbol {\mathit {mba}\ell }$
consisting of uniformly complete objects of
$\boldsymbol {\mathit {mba}\ell }$
. This generalizes both Gelfand duality and Jónsson-Tarski duality.
We introduce stable canonical rules and prove that each normal modal multi-conclusion consequence relation is axiomatizable by stable canonical rules. We apply these results to construct finite refutation patterns for modal formulas, and prove that each normal modal logic is axiomatizable by stable canonical rules. We also define stable multi-conclusion consequence relations and stable logics and prove that these systems have the finite model property. We conclude the paper with a number of examples of stable and nonstable systems, and show how to axiomatize them.
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