Abstract
We divide the class of infinite computable trees into three types. For the first and second types, 0' computes a nontrivial self-embedding while for the third type 0'' computes a nontrivial self-embedding. These results are optimal and we obtain partial results concerning the complexity of nontrivial self-embeddings of infinite computable trees considered up to isomorphism. We show that every infinite computable tree must have either an infinite computable chain or an infinite Π01 antichain. This result is optimal and has connections to the program of reverse mathematics.
Citation
Stephen Binns. Bjørn Kjos-Hanssen. Manuel Lerman. James H. Schmerl. Reed Solomon. "Self-Embeddings of Computable Trees." Notre Dame J. Formal Logic 49 (1) 1 - 37, 2008. https://doi.org/10.1215/00294527-2007-001
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