Polynomization of the Bessenrodt–Ono Type Inequalities for A-Partition Functions

IF 0.6 4区数学 Q4 MATHEMATICS, APPLIED

Annals of Combinatorics Pub Date : 2024-04-03 DOI:10.1007/s00026-024-00692-4

Krystian Gajdzica, Bernhard Heim, Markus Neuhauser

引用次数: 0

Abstract

For an arbitrary set or multiset A of positive integers, we associate the A-partition function $p_A(n)$ (that is the number of partitions of n whose parts belong to A). We also consider the analogue of the k-colored partition function, namely, $p_{A,-k}(n)$. Further, we define a family of polynomials $f_{A,n}(x)$ which satisfy the equality $f_{A,n}(k)=p_{A,-k}(n)$ for all $n\in \mathbb {Z}_{\ge 0}$ and $k\in \mathbb {N}$. This paper concerns a polynomialization of the Bessenrodt–Ono inequality, namely

$$\begin{aligned} f_{A,a}(x)f_{A,b}(x)>f_{A,a+b}(x), \end{aligned}$$

where a, b are positive integers. We determine efficient criteria for the solutions of this inequality. Moreover, we also investigate a few basic properties related to both functions $f_{A,n}(x)$ and $f_{A,n}'(x)$.

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A 分区函数的贝森罗德-奥诺型不等式的多项式化

对于一个由正整数组成的任意集合或多集合 A，我们会联想到 A 分区函数 $p__A(n)$（即 n 中属于 A 的部分的个数）。我们还考虑 k 色分治函数的类似函数，即 $p_{A,-k}(n)$。此外，我们还定义了多项式族 $f_{A,n}(x)$，对于所有 $n\in \mathbb {Z}_{\ge 0}$ 和 $k\in \mathbb {N}/)，它们都满足相等关系 \(f_{A,n}(k)=p_{A,-k}(n)$。本文涉及贝森罗德-奥诺不等式的多项式化，即 $$\begin{aligned} f_{A,a}(x)f_{A,b}(x)>f_{A,a+b}(x), \end{aligned}$$，其中 a、b 均为正整数。我们为这个不等式的解确定了有效的标准。此外，我们还研究了与函数 $f_{A,n}(x)$ 和 $f_{A,n}'(x)$ 相关的一些基本性质。

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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来源期刊

Annals of Combinatorics 数学-应用数学

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Annals of Combinatorics publishes outstanding contributions to combinatorics with a particular focus on algebraic and analytic combinatorics, as well as the areas of graph and matroid theory. Special regard will be given to new developments and topics of current interest to the community represented by our editorial board. The scope of Annals of Combinatorics is covered by the following three tracks: Algebraic Combinatorics: Enumerative combinatorics, symmetric functions, Schubert calculus / Combinatorial Hopf algebras, cluster algebras, Lie algebras, root systems, Coxeter groups / Discrete geometry, tropical geometry / Discrete dynamical systems / Posets and lattices Analytic and Algorithmic Combinatorics: Asymptotic analysis of counting sequences / Bijective combinatorics / Univariate and multivariable singularity analysis / Combinatorics and differential equations / Resolution of hard combinatorial problems by making essential use of computers / Advanced methods for evaluating counting sequences or combinatorial constants / Complexity and decidability aspects of combinatorial sequences / Combinatorial aspects of the analysis of algorithms Graphs and Matroids: Structural graph theory, graph minors, graph sparsity, decompositions and colorings / Planar graphs and topological graph theory, geometric representations of graphs / Directed graphs, posets / Metric graph theory / Spectral and algebraic graph theory / Random graphs, extremal graph theory / Matroids, oriented matroids, matroid minors / Algorithmic approaches