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Additive Diophantine inequalities with mixed powers I

Published online by Cambridge University Press:  26 February 2010

Jörg Brüdern
Affiliation:
Geismar Landstrasse 97, 3400 Göttingen, West Germany.
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Extract

In this paper we shall be concerned with the following problem. Let k1k2 ≤…≤ ks be natural numbers, λ1,…, λs be nonzero real numbers, not all of the same sign. Is it then true that the values taken by

at integer points (x1,…, xs) ∈ ℤk are dense on the real line, provided at least one of the ratios λij, is irrational? We shall refer to this, for brevity, as the inequality problem for k1,…, ks. Optimistically one may conjecture that the inequality problem is true whenever

Type
Research Article
Copyright
Copyright © University College London 1987

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References

1.Baker, R. C. and Harman, G.. Diophantine inequalities with mixed powers. J. Number Theory, 18 (1984), 6985.CrossRefGoogle Scholar
2.Cook, R. J.. Diophantine inequalities with mixed powers. J. Number Theory, 9 (1977), 261274.CrossRefGoogle Scholar
3.Cook, R. J.. Diophantine inequalities with mixed powers II. J. Number Theory, 11 (1979), 4968.CrossRefGoogle Scholar
4.Davenport, H.. Indefinite quadratic forms in many variables. Mathematika, 3 (1956), 81101.CrossRefGoogle Scholar
5.Davenport, H. and Heilbronn, H.. On indefinite quadratic forms in five variables. J. Lond. Math. Soc., 21 (1946), 185193.CrossRefGoogle Scholar
6.Davenport, H. and Roth, K. F.. The solubility of certain Diophantine inequalities. Mathematika, 2 (1955), 8196.CrossRefGoogle Scholar
7.Tsang, K. M.. Diophantine inequalities with mixed powers. J. Number Theory, 15 (1982) 149163.CrossRefGoogle Scholar
8.Vaughan, R. C.. Diophantine approximation by prime numbers II, Proc. Lond. Math. Soc., (3), 28 (1974), 385401.CrossRefGoogle Scholar
9.Vaughan, R. C.. The Hardy-Littlewood method (Cambridge, 1981).Google Scholar