A tree rewriting system for the Reflection Calculus
Abstract: The $Reflection$ $Calculus$ ($\mathcal{\mathbf{RC}}$) is the fragment of the polymodal logic $\mathcal{\mathbf{GLP}}$ in the language $L+$ whose formulas are built up from $\top$ and propositional variables using conjunction and diamond modalities. $\mathcal{\mathbf{RC}}$ is complete with respect to the arithmetical interpretation that associates modalities with reflection principles and has various applications in proof theory, specifically ordinal analysis. We present ${\sf TRC}$, a tree rewriting system that is adequate and complete with respect to $\mathcal{\mathbf{RC}}$, designed to simulate $\mathcal{\mathbf{RC}}$ derivations. ${\sf TRC}$ is based on a given correspondence between formulas of $L{+}$ and modal trees ${\sf Tree}{\Diamond}$. Modal trees are presented as an inductive type allowing precise positioning and transformations which give rise to the formal definition of rewriting rules and facilitates formalization in proof assistants. Furthermore, we provide a rewrite normalization theorem for systematic rule application. The normalization of the rewriting process enhances proof search efficiency and facilitates implementation. By providing ${\sf TRC}$ as an efficient provability tool for $\mathcal{\mathbf{RC}}$, we aim to help on the study of various aspects of the logic such as the subformula property and rule admissibility.
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