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Primitive polynomial subsequences

Published online by Cambridge University Press:  26 February 2010

I. Anderson
Affiliation:
Department of Mathematics, University of Glasgow, Glasgow G12 8QW
S. D. Cohen
Affiliation:
Department of Mathematics, University of Glasgow, Glasgow G12 8QW
W. W. Stothers
Affiliation:
Department of Mathematics, University of Glasgow, Glasgow G12 8QW
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A sequence {an} of integers is said to be primitive if whenever ij. For example, if n is any positive integer, the sequence

is primitive. This is an important example in the light of the elementary result (see [2; p. 244]) that if 0 < a1 < a2 < … < ar ≤ 2n is primitive then necessarily rn; i.e. at most half of the positive integers ≤ 2n can be members of the sequence. Besicovitch [2; p. 257] has obtained the surprising result that, given ε > 0, there exists an infinite primitive sequence {ai} such that

where A(n) denotes the number of ain.

Type
Research Article
Copyright
Copyright © University College London 1974

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References

1.Davenport, H. and Roth, K. F.. “Rational approximations to algebraic numbers”, Mathematika, 2 (1955), 160167.CrossRefGoogle Scholar
2.Halberstam, H. and Roth, K. F.. Sequences, Vol. 1 (Oxford 1966).Google Scholar
3.Leveque, W. J.. Topics in Number Theory, Vol. 1 (Addison-Wesley 1956).Google Scholar
4.Odoni, R. W. K.. “The Farey density of norm subgroups of global fields (1)”, Mathematika, 20 (1973), 155169.CrossRefGoogle Scholar
5.Smith, H. J. S.. “Reports on the Theory of Numbers”, Collected Mathematical Papers, Vol. 1 (Oxford 1894).Google Scholar