Interpretability logics comprise a family of modal logics that extend provability logic to describe interpretability or various related metamathematical properties and relations such as weak interpretability, Π1-conservativity, cointerpretability, tolerance, cotolerance, and arithmetic complexities. Main contributors to the field are Alessandro Berarducci, Petr Hájek, Konstantin Ignatiev, Giorgi Japaridze, Franco Montagna, Vladimir Shavrukov, Rineke Verbrugge, Albert Visser, and Domenico Zambella.

Examples

Logic ILM

The language of ILM extends that of classical propositional logic by adding the unary modal operator \Box and the binary modal operator (as always, \Diamond p is defined as ). The arithmetical interpretation of \Box p is “p is provable in Peano arithmetic (PA)”, and is understood as “PA+q is interpretable in PA+p”. Axiom schemata: Rules of inference: The completeness of ILM with respect to its arithmetical interpretation was independently proven by Alessandro Berarducci and Vladimir Shavrukov.

Logic TOL

The language of TOL extends that of classical propositional logic by adding the modal operator \Diamond which is allowed to take any nonempty sequence of arguments. The arithmetical interpretation of is “ is a tolerant sequence of theories”. Axioms (with p,q standing for any formulas, for any sequences of formulas, and \Diamond identified with ⊤): Rules of inference: The completeness of TOL with respect to its arithmetical interpretation was proven by Giorgi Japaridze.