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Main Author: Monroe, Hunter
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.27787
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author Monroe, Hunter
author_facet Monroe, Hunter
contents We study when a sound arithmetic theory $\mathcal S{\supseteq}S^1_2$ with polynomial-time decidable axioms efficiently proves the bounded consistency statements $Con_{\mathcal S{+}ϕ}(n)$ for a true sentence $ϕ$. Equivalently, we ask when $\mathcal S$, viewed as a proof system, simulates $\mathcal S{+}ϕ$. The paper's two unconditional contributions constrain possible characterizations. First, for finitely axiomatized sequential $\mathcal S$, if $EA{\vdash}Con_{\mathcal S}{\rightarrow}Con_{\mathcal S{+}ϕ}$, then $\mathcal S$ interprets $\mathcal S{+}ϕ$, implying ${\mathcal S}{\vdash^{n^{O(1)}}}Con_{\mathcal S}(p(n)){\rightarrow}Con_{\mathcal S{+}ϕ}(n)$ for some polynomial $p$, and hence ${\mathcal S}{\vdash^{n^{O(1)}}}Con_{\mathcal S{+}ϕ}(n)$. Second, if $\mathcal S$ fails to simulate $\mathcal S{+}ϕ$ for some true $ϕ$, then for all sufficiently large $k$ it also fails for $ϕ_{BB}(k)$ asserting the exact value of the $k$-state Busy Beaver function. Informally, any argument showing that $\mathcal S$ fails to simulate some $\mathcal S{+}ϕ$ also yields unprovable $ϕ_{BB}(k)$ witnessing the same obstruction. These results suggest that relative consistency strength is a serious candidate for governing when simulation is possible, while leaving open whether it is the correct criterion. The paper's central conjectural proposal is that the above sufficient condition is also necessary: if $EA{\not\vdash}Con_{\mathcal S}{\rightarrow}Con_{\mathcal S{+}ϕ}$, then for every constant $c{>}0$, ${\mathcal S}{\not\vdash^{n^c}}Con_{\mathcal S{+}ϕ}(n)$. Under this proposal, hardness follows in canonical cases where $ϕ$ is $Con_{\mathcal S}$ or a Kolmogorov-randomness axiom. The latter yields further conjectural consequences and extensions.
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id arxiv_https___arxiv_org_abs_2604_27787
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Toward a Characterization of Simulation Between Arithmetic Theories
Monroe, Hunter
Computational Complexity
Logic
We study when a sound arithmetic theory $\mathcal S{\supseteq}S^1_2$ with polynomial-time decidable axioms efficiently proves the bounded consistency statements $Con_{\mathcal S{+}ϕ}(n)$ for a true sentence $ϕ$. Equivalently, we ask when $\mathcal S$, viewed as a proof system, simulates $\mathcal S{+}ϕ$. The paper's two unconditional contributions constrain possible characterizations. First, for finitely axiomatized sequential $\mathcal S$, if $EA{\vdash}Con_{\mathcal S}{\rightarrow}Con_{\mathcal S{+}ϕ}$, then $\mathcal S$ interprets $\mathcal S{+}ϕ$, implying ${\mathcal S}{\vdash^{n^{O(1)}}}Con_{\mathcal S}(p(n)){\rightarrow}Con_{\mathcal S{+}ϕ}(n)$ for some polynomial $p$, and hence ${\mathcal S}{\vdash^{n^{O(1)}}}Con_{\mathcal S{+}ϕ}(n)$. Second, if $\mathcal S$ fails to simulate $\mathcal S{+}ϕ$ for some true $ϕ$, then for all sufficiently large $k$ it also fails for $ϕ_{BB}(k)$ asserting the exact value of the $k$-state Busy Beaver function. Informally, any argument showing that $\mathcal S$ fails to simulate some $\mathcal S{+}ϕ$ also yields unprovable $ϕ_{BB}(k)$ witnessing the same obstruction. These results suggest that relative consistency strength is a serious candidate for governing when simulation is possible, while leaving open whether it is the correct criterion. The paper's central conjectural proposal is that the above sufficient condition is also necessary: if $EA{\not\vdash}Con_{\mathcal S}{\rightarrow}Con_{\mathcal S{+}ϕ}$, then for every constant $c{>}0$, ${\mathcal S}{\not\vdash^{n^c}}Con_{\mathcal S{+}ϕ}(n)$. Under this proposal, hardness follows in canonical cases where $ϕ$ is $Con_{\mathcal S}$ or a Kolmogorov-randomness axiom. The latter yields further conjectural consequences and extensions.
title Toward a Characterization of Simulation Between Arithmetic Theories
topic Computational Complexity
Logic
url https://arxiv.org/abs/2604.27787