论文信息 - Some strongly undecidable natural arithmetical problems, with an application to intuitionistic theories

Some strongly undecidable natural arithmetical problems, with an application to intuitionistic theories

1. Introduction. Although Church and Turing presented their path-breaking undecidability results immediately after their explication of effective decidability in 1936, it has been generally felt that these results do not have any direct bearing on ordinary mathematics but only contribute to logic, metamathematics and the theory of computability. Therefore it was such a celebrated achievement when Yuri Matiyasevich in 1970 demonstrated that the problem of the solvability of Diophan-tine equations is undecidable. (1961), who had showed that the problem of solvability of exponential Diophantine equations is undecidable. One should note, however, that although it was only Matiyasevich's result which finally solved Hilbert's tenth problem, already the earlier result had provided a perfectly natural problem of ordinary number theory which is undecidable.

Panu Raatikainen

[1] Hilary Putnam,et al. Trial and error predicates and the solution to a problem of Mostowski , 1965, Journal of Symbolic Logic.

[2] Hartley Rogers,et al. Gödel numberings of partial recursive functions , 1958, Journal of Symbolic Logic.

[3] Steffen Lempp,et al. The computational complexity of torsion-freeness of finitely presented groups , 1997, Bulletin of the Australian Mathematical Society.

[4] H. Putnam,et al. The Decision Problem for Exponential Diophantine Equations , 1961 .

[5] Kevin T. Kelly. The Logic of Reliable Inquiry , 1996 .

[6] Martin D. Davis. Hilbert's Tenth Problem is Unsolvable , 1973 .

[7] R. Tijdeman,et al. The Number of Solutions of Diophantine Equations , 2022 .

[8] Craig Smorynski. A Note on the Number of Zeros of Polynomials and Exponential Polynomials , 1977, J. Symb. Log..

[9] D. C. Cooper,et al. Theory of Recursive Functions and Effective Computability , 1969, The Mathematical Gazette.

[10] Harvey M. Friedman,et al. Classically and intuitionistically provably recursive functions , 1978 .

[11] C. Smorynski. Logical Number Theory I , 1991 .