Alberto Marcone, Antonio Montalbán
Published 2009-10-28, updated 2010-07-06Version 2
We study the computability-theoretic complexity and proof-theoretic strength of the following statements: (1) "If X is a well-ordering, then so is epsilon_X", and (2) "If X is a well-ordering, then so is phi(alpha,X)", where alpha is a fixed computable ordinal and phi the two-placed Veblen function. For the former statement, we show that omega iterations of the Turing jump are necessary in the proof and that the statement is equivalent to ACA_0^+ over RCA_0. To prove the latter statement we need to use omega^alpha iterations of the Turing jump, and we show that the statement is equivalent to Pi^0_{omega^alpha}-CA_0. Our proofs are purely computability-theoretic. We also give a new proof of a result of Friedman: the statement "if X is a well-ordering, then so is phi(X,0)" is equivalent to ATR_0 over RCA_0.
Comments: 26 pages, 3 figures, to appear in Journal of Symbolic Logic
Journal: The Journal of Symbolic Logic 76 (2011), 575-602
Lawvere-Tierney topologies for computability theorists
Reverse mathematics of the finite downwards closed subsets of $\mathbb{N}^k$ ordered by inclusion
Reverse mathematics and equivalents of the axiom of choice
![QR code for arXiv:0910.5442 [math.LO]](http://oss.arxitics.com/images/favicon.svg)