A fixed point for the jump operator on structures

Journal of Symbolic Logic 78 (2):425-438 (2013)
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Abstract

Assuming that $0^\#$ exists, we prove that there is a structure that can effectively interpret its own jump. In particular, we get a structure $\mathcal A$ such that \[ \textit{Sp}({\mathcal A}) = \{{\bf x}'\colon {\bf x}\in \textit{Sp}({\mathcal A})\}, \] where $\textit{Sp}({\mathcal A})$ is the set of Turing degrees which compute a copy of $\mathcal A$. More interesting than the result itself is its unexpected complexity. We prove that higher-order arithmetic, which is the union of full $n$th-order arithmetic for all $n$, cannot prove the existence of such a structure

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10.2178/jsl.7802050

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References found in this work

Generic copies of countable structures.Chris Ash, Julia Knight, Mark Manasse & Theodore Slaman - 1989 - Annals of Pure and Applied Logic 42 (3):195-205.
A note on the hyperarithmetical hierarchy.H. B. Enderton & Hilary Putnam - 1970 - Journal of Symbolic Logic 35 (3):429-430.
The jump operation for structure degrees.V. Baleva - 2005 - Archive for Mathematical Logic 45 (3):249-265.
Coding and Definability in Computable Structures.Antonio Montalbán - 2018 - Notre Dame Journal of Formal Logic 59 (3):285-306.

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