Abstract
A set of algebraic numbers has the Northcott property if each of its subsets of bounded Weil height is finite. Northcott’s Theorem, which has many Diophantine applications, states that sets of bounded degree have the Northcott property. Bombieri, Dvornicich and Zannier raised the problem of finding fields of infinite degree with this property. Bombieri and Zannier have shown that \({{\mathbb Q}_{ab}^{(d)}}\) , the maximal abelian subfield of the field generated by all algebraic numbers of degree at most d, is such a field. In this note we give a simple criterion for the Northcott property and, as an application, we deduce several new examples, e.g. \({{\mathbb Q}(2^{1/d_1},3^{1/d_2},5^{1/d_3},7^{1/d_4},11^{1/d_5},\ldots)}\) has the Northcott property if and only if \({2^{1/d_1}, 3^{1/d_2}, 5^{1/d_3}, 7^{1/d_4}, 11^{1/d_5}}\) , . . . tends to infinity.
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Communicated by U. Zannier.
This work has been financially supported by the Swiss National Science Foundation.
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Widmer, M. On certain infinite extensions of the rationals with Northcott property. Monatsh Math 162, 341–353 (2011). https://doi.org/10.1007/s00605-009-0162-7
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DOI: https://doi.org/10.1007/s00605-009-0162-7