关于三元数定义的某些数域的单胚性

IF 0.5 Q3 MATHEMATICS FUNCTIONES ET APPROXIMATIO COMMENTARII MATHEMATICI Pub Date : 2021-09-17 DOI:10.7169/facm/1987

H. B. Yakkou, L. E. Fadil

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引用次数: 8

摘要

设K=Q（θ）是由单不可约三项F（x）=x+ax+b∈Z[x]的复根θ生成的数域。关于三元数定义的数域的单原性，已有大量文献，Gaál研究了三元数所定义的性数域的多单原性。Jhorar和Khanduja研究了Z[θ]的积分闭性。但如果Z[θ]不是整闭的，则Jhorar和Khanduja的结果不能回答K的单胚性问题。本文基于牛顿多边形技术，讨论了K的单卵性问题。对于n∈{5,6,3,2.3,2.3+1}，我们显式给出了这些数域的一些非单基因的无穷大族。最后，我们通过一些计算实例说明了我们的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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On monogenity of certain number fields defined by trinomials

Let K = Q(θ) be a number field generated by a complex root θ of a monic irreducible trinomial F (x) = x + ax + b ∈ Z[x]. There is an extensive literature of monogenity of number fields defined by trinomials, Gaál studied the multi-monogenity of sextic number fields defined by trinomials. Jhorar and Khanduja studied the integral closedness of Z[θ]. But if Z[θ] is not integrally closed, then Jhorar and Khanduja’s results cannot answer on the monogenity of K. In this paper, based on Newton polygon techniques, we deal with the problem of monogenity of K. More precisely, when ZK 6= Z[θ], we give sufficient conditions on n, a and b for K to be not monogenic. For n ∈ {5, 6, 3, 2 · 3, 2 · 3 + 1}, we give explicitly some infinite families of these number fields that are not monogenic. Finally, we illustrate our results by some computational examples.

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来源期刊

FUNCTIONES ET APPROXIMATIO COMMENTARII MATHEMATICI MATHEMATICS-

CiteScore

0.80

自引率

20.00%

发文量