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On a general Thue's equation
- American Journal of Mathematics
- Johns Hopkins University Press
- Volume 126, Number 5, October 2004
- pp. 1033-1055
- 10.1353/ajm.2004.0034
- Article
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We analyze the integral points on varieties defined by one equation of the form f1 · · · fr = g, where the fi, g are polynomials in n variables with algebraic coefficients, and g has "small" degree; we shall use a method that we recently introduced in the context of Siegel's Theorem for integral points on curves. Classical, very particular, instances of our equations arise, e.g., in a well-known corollary of Roth's Theorem (the case n = 2, fi linear forms, deg g < r-2) and with the norm-form equations, treated by W. M. Schmidt. Here we shall prove (Thm. 1) that the integral points are not Zariski-dense, provided Σdeg fi > n · max (deg fi) + deg g and provided the fi, g, satisfy certain (mild) assumptions which are "generically" verified. Our conclusions also cover certain complete-intersection subvarieties of our hypersurface (Thm. 2). Finally, we shall prove (Thm. 3) an analogue of the Schmidt's Subspace Theorem for arbitrary polynomials in place of linear forms.