On dihedral Pólya fields

Pub Date : 2024-09-23 DOI:10.1016/j.jnt.2024.08.005

Charles Wend-Waoga Tougma

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引用次数: 0

Abstract

A number field is a Pólya field when the module of integer-valued polynomials over its ring of integers has a regular basis. A quartic field is a

D_{4}

-field when the Galois group of its splitting field is the dihedral group

D_{4}

of 8 elements. In this paper, we prove that there are infinitely many

D_{4}

-Pólya fields with ℓ ramified prime numbers for each

ℓ \in {2, 3, 4, 5}

and a

D_{4}

Pólya field with

ℓ = 1

ramified prime number, is, up to

Q

-isomorphism,

Q (\sqrt{1 + \sqrt{2}})

Q (\sqrt{- 1 + \sqrt{2}})

or a pure field. Consequently, we answer a question raised in [29] on

D_{4}

-fields. The same question arises on pure fields. We find an upper bound for such fields. And for any integer ℓ less that this bound, we show that there are infinitely many pure Pólya fields with ℓ ramified prime numbers except when

ℓ = 1

where we proved that there are only 2 fields (and their two conjugate fields)

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关于二面波利亚场

当一个数域的整数环上的整值多项式模块具有规则基础时，该数域就是波利亚域。当一个四元场的分裂场的伽罗瓦群是由 8 个元素组成的二面群 D4 时，它就是一个 D4 场。本文证明，对于每个 ℓ∈{2,3,4,5} 都有ℓ 夯素数的 D4-Pólya 场有无穷多个，而具有 ℓ=1 夯素数的 D4 Pólya 场在 Q-isomorphism 下是 Q(1+2)、Q(-1+2) 或纯场。因此，我们回答了 [29] 提出的关于 D4 场的问题。同样的问题也出现在纯域上。我们找到了纯场的上限。对于小于这个上限的任何整数 ℓ，我们证明了有无穷多个具有 ℓ 夯素数的纯波利亚场，除了当 ℓ=1 时，我们证明了只有 2 个场（以及它们的两个共轭场）。

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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