具有固定弗罗本尼斯数的数值半群的协方差

IF 0.6 3区数学 Q3 MATHEMATICS

Journal of Algebraic Combinatorics Pub Date : 2024-07-05 DOI:10.1007/s10801-024-01342-x

M. A. Moreno-Frías, J. C. Rosales

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引用次数: 0

摘要

用 \({\mathrm m}(S)\)表示数字半群 S 的多重性。共变是满足以下条件的数字半群的非空族（\(\mathscr {C}\) numerical semigroups）：有最小的（（（mathscr {C}、\(S\backslash \{{mathrm}(S)\}in \mathscr {C}\) for all \(S\in \mathscr {C}\) such that \(S\ne \min (\mathscr {C}).\)在这项工作中，我们描述了一种计算 \(\mathscr {C}.\) 的所有元素的算法过程，我们证明了存在包含一组正整数的 \(\mathscr {C}\) 的最小元素。我们证明 \(\mathscr {A}(F)=\{S\mid S \hbox { is a numerical semigroup with Frobenius number }F\}\) 是一个协方差，并且我们在这个协方差中具体化了前面的结果。最后，我们将看到存在包含有限数字半群集的最小协方差。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

The covariety of numerical semigroups with fixed Frobenius number

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The covariety of numerical semigroups with fixed Frobenius number

Denote by \({\mathrm m}(S)\) the multiplicity of a numerical semigroup S. A covariety is a nonempty family \(\mathscr {C}\) of numerical semigroups that fulfils the following conditions: there is the minimum of \(\mathscr {C},\) the intersection of two elements of \(\mathscr {C}\) is again an element of \(\mathscr {C}\) and \(S\backslash \{{\mathrm m}(S)\}\in \mathscr {C}\) for all \(S\in \mathscr {C}\) such that \(S\ne \min (\mathscr {C}).\) In this work we describe an algorithmic procedure to compute all the elements of \(\mathscr {C}.\) We prove that there exists the smallest element of \(\mathscr {C}\) containing a set of positive integers. We show that \(\mathscr {A}(F)=\{S\mid S \hbox { is a numerical semigroup with Frobenius number }F\}\) is a covariety, and we particularize the previous results in this covariety. Finally, we will see that there is the smallest covariety containing a finite set of numerical semigroups.

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来源期刊

Journal of Algebraic Combinatorics 数学-数学

CiteScore

1.50

自引率

12.50%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Algebraic Combinatorics provides a single forum for papers on algebraic combinatorics which, at present, are distributed throughout a number of journals. Within the last decade or so, algebraic combinatorics has evolved into a mature, established and identifiable area of mathematics. Research contributions in the field are increasingly seen to have substantial links with other areas of mathematics. The journal publishes papers in which combinatorics and algebra interact in a significant and interesting fashion. This interaction might occur through the study of combinatorial structures using algebraic methods, or the application of combinatorial methods to algebraic problems.