Switch to: References

Add citations

You must login to add citations.
  1. Finite Axiomatizability of Transitive Modal Logics of Finite Depth and Width with Respect to Proper-Successor-Equivalence.Yan Zhang & X. U. Ming - forthcoming - Review of Symbolic Logic:1-14.
    This paper proves the finite axiomatizability of transitive modal logics of finite depth and finite width w.r.t. proper-successor-equivalence. The frame condition of the latter requires, in a rooted transitive frame, a finite upper bound of cardinality for antichains of points with different sets of proper successors. The result generalizes Rybakov’s result of the finite axiomatizability of extensions of$\mathbf {S4}$of finite depth and finite width.
    Download  
     
    Export citation  
     
    Bookmark  
  • Canonicity in Power and Modal Logics of Finite Achronal Width.Robert Goldblatt & Ian Hodkinson - 2024 - Review of Symbolic Logic 17 (3):705-735.
    We develop a method for showing that various modal logics that are valid in their countably generated canonical Kripke frames must also be valid in their uncountably generated ones. This is applied to many systems, including the logics of finite width, and a broader class of multimodal logics of ‘finite achronal width’ that are introduced here.
    Download  
     
    Export citation  
     
    Bookmark  
  • FMP-Ensuring Logics, RA-Ensuring Logics and FA-Ensuring Logics in $$\text {NExtK4.3}$$.Ming Xu - 2023 - Studia Logica 111 (6):899-946.
    This paper studies modal logics whose extensions all have the finite model property, those whose extensions are all recursively axiomatizable, and those whose extensions are all finitely axiomatizable. We call such logics FMP-ensuring, RA-ensuring and FA-ensuring respectively, and prove necessary and sufficient conditions of such logics in $$\mathsf {NExtK4.3}$$. Two infinite descending chains $$\{{\textbf{S}}_{k}\}_{k\in \omega }$$ and $$\{{\textbf{S}} _{k}^{*}\}_{k\in \omega }$$ of logics are presented, in terms of which the necessary and sufficient conditions are formulated as follows: A logic in (...)
    Download  
     
    Export citation  
     
    Bookmark