合成产物的分解和不可约性

IF 1.4 2区数学 Q3 COMPUTER SCIENCE, THEORY & METHODS

Designs, Codes and Cryptography Pub Date : 2024-12-04 DOI:10.1007/s10623-024-01529-0

Lukas Kölsch, Lucas Krompholz, Gohar Kyureghyan

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引用次数: 0

摘要

Brawley和Carlitz在1987年引入了有限域单元的菱形积和相关的多项式组合积。组合乘积给出了一种由低次不可约多项式构造大次不可约多项式的方法。我们证明了两个m和n次不可约多项式的合成积当且仅当m和n是互素时也是不可约的，并且所涉及的钻石积满足一个特殊的消去性质，即所谓的共轭消去。这完成了以前几篇论文中考虑的不可还原组合产品的表征。更一般地，我们给出了金刚石积满足共轭消去的精确判据。对于二元多项式定义的金刚石积，我们证明了共轭抵消成立的简单准则。我们还提供了有效的算法来检查这些标准。在多项式是双线性的情况下，我们获得了更强的结果和更有效的算法。最后，我们考虑了使用组合产物和我们开发的方法来构建正常元素的可能性。

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Factorization and irreducibility of composed products

Brawley and Carlitz introduced diamond products of elements of finite fields and associated composed products of polynomials in 1987. Composed products yield a method to construct irreducible polynomials of large composite degrees from irreducible polynomials of lower degrees. We show that the composed product of two irreducible polynomials of degrees m and n is again irreducible if and only if m and n are coprime and the involved diamond product satisfies a special cancellation property, the so-called conjugate cancellation. This completes the characterization of irreducible composed products, considered in several previous papers. More generally, we give precise criteria when a diamond product satisfies conjugate cancellation. For diamond products defined via bivariate polynomials, we prove simple criteria that characterize when conjugate cancellation holds. We also provide efficient algorithms to check these criteria. We achieve stronger results as well as more efficient algorithms in the case that the polynomials are bilinear. Lastly, we consider possible constructions of normal elements using composed products and the methods we developed.

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来源期刊

Designs, Codes and Cryptography 工程技术-计算机：理论方法

CiteScore

2.80

自引率

12.50%

发文量

157

审稿时长

16.5 months

期刊介绍： Designs, Codes and Cryptography is an archival peer-reviewed technical journal publishing original research papers in the designated areas. There is a great deal of activity in design theory, coding theory and cryptography, including a substantial amount of research which brings together more than one of the subjects. While many journals exist for each of the individual areas, few encourage the interaction of the disciplines. The journal was founded to meet the needs of mathematicians, engineers and computer scientists working in these areas, whose interests extend beyond the bounds of any one of the individual disciplines. The journal provides a forum for high quality research in its three areas, with papers touching more than one of the areas especially welcome. The journal also considers high quality submissions in the closely related areas of finite fields and finite geometries, which provide important tools for both the construction and the actual application of designs, codes and cryptographic systems. In particular, it includes (mostly theoretical) papers on computational aspects of finite fields. It also considers topics in sequence design, which frequently admit equivalent formulations in the journal’s main areas. Designs, Codes and Cryptography is mathematically oriented, emphasizing the algebraic and geometric aspects of the areas it covers. The journal considers high quality papers of both a theoretical and a practical nature, provided they contain a substantial amount of mathematics.