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Leaf management

Published 23 Dec 2018 in math.LO | (1812.09762v1)

Abstract: Finding the set of leaves for an unbounded tree is a nontrivial process in both the Weihrauch and reverse mathematics settings. Despite this, many combinatorial principles for trees are equivalent to their restrictions to trees with leaf sets. For example, let ${\widehat{\sf{WF}}}$ denote the problem of choosing which trees in a sequence are well-founded, and let ${{\sf{PK}}}$ denote the problem of finding the perfect kernel of a tree. Let ${\widehat{\sf{WF}}}_L$ and ${{\sf{PK}}}_L$ denote the restrictions of these principles to trees with leaf sets. Then ${\widehat{\sf{WF}}}$, ${\widehat{\sf{WF}}}_L$, ${{\sf{PK}}}$, and ${{\sf{PK}}}_L$ are all equivalent to ${\Pi1_1 {\rm -} {\sf{CA}}_0}$ over ${{\sf{RCA}}_0}$, and all strongly Weihrauch equivalent.

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