Independence, Relative Randomness, and PA Degrees

Adam R. Day; Jan Reimann

doi:10.1215/00294527-2377842

2014 Independence, Relative Randomness, and PA Degrees

Adam R. Day, Jan Reimann

Notre Dame J. Formal Logic 55(1): 1-10 (2014). DOI: 10.1215/00294527-2377842

Abstract

We study pairs of reals that are mutually Martin-Löf random with respect to a common, not necessarily computable probability measure. We show that a generalized version of van Lambalgen’s theorem holds for noncomputable probability measures, too. We study, for a given real $A$ , the independence spectrum of $A$ , the set of all $B$ such that there exists a probability measure $\mu$ so that $\mu\{A,B\}=0$ and $(A,B)$ is $(\mu\times\mu)$ -random. We prove that if $A$ is computably enumerable (c.e.), then no $\Delta^{0}_{2}$ -set is in the independence spectrum of $A$ . We obtain applications of this fact to PA degrees. In particular, we show that if $A$ is c.e. and $P$ is of PA degree so that $P\ngeq_{\mathrm {T}}A$ , then $A\oplus P\geq _{\mathrm {T}}\emptyset'$ .

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Adam R. Day. Jan Reimann. "Independence, Relative Randomness, and PA Degrees." Notre Dame J. Formal Logic 55 (1) 1 - 10, 2014. https://doi.org/10.1215/00294527-2377842