Abstract

AbstractWe investigate the degree spectra of computable relations on canonically ordered natural numbers $$(\omega ,<)$$ ( ω , < ) and integers $$(\zeta ,<)$$ ( ζ , < ) . As for $$(\omega ,<)$$ ( ω , < ) , we provide several criteria that fix the degree spectrum of a computable relation to all c.e. or to all $$\Delta _2$$ Δ 2 degrees; this includes the complete characterization of the degree spectra of so-called computable block functions that have only finitely many types of blocks. Compared to Bazhenov et al. (in: LIPIcs, vol 219, pp 8:1–8:20, 2022), we obtain a more general solution to the problem regarding possible degree spectra on $$(\omega ,<)$$ ( ω , < ) , answering the question whether there are infinitely many such spectra. As for $$(\zeta ,<)$$ ( ζ , < ) , we prove the following dichotomy result: given an arbitrary computable relation R on $$(\zeta ,<)$$ ( ζ , < ) , its degree spectrum is either trivial or it contains all c.e. degrees. This result, and the proof techniques required to solve it, extend the analogous theorem for $$(\omega ,<)$$ ( ω , < ) obtained by Wright (Computability 7:349–365, 2018), and provide initial insight to Wright’s question whether such a dichotomy holds on computable ill-founded linear orders. This article is an extended version of Bazhenov et al. (in: LIPIcs, vol 219, pp 8:1–8:20, 2022).

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