Sergio R. López-Permouth, Aaron Nicely, Majed Zailaee
{"title":"Semigroup collaborations between elementary operations","authors":"Sergio R. López-Permouth, Aaron Nicely, Majed Zailaee","doi":"10.1007/s00233-024-10408-y","DOIUrl":null,"url":null,"abstract":"<p>Given two operations <span>\\(*\\)</span> and <span>\\(\\circ \\)</span> on a set <i>S</i>, an operation <span>\\(\\star \\)</span> on <i>S</i> is said to be a <i>collaboration</i> between <span>\\(*\\)</span> and <span>\\(\\circ \\)</span> if for all <span>\\(a,b \\in S\\)</span>, <span>\\(a \\star b\\)</span> <span>\\(\\in \\{a *b, a\\circ b \\}\\)</span>. Another term for collaborations is two-option operations. We are interested in learning what associative collaborations of two given operations <span>\\(*\\)</span> and <span>\\(\\circ \\)</span> there may be. We do not require that <span>\\(*\\)</span> and <span>\\(\\circ \\)</span> themselves be associative. For this project, as an initial experiment, we consider <i>Plus-Minus</i> operations (i.e. collaborations between addition and subtraction on an abelian group) and <i>Plus-Times</i> operations (i.e. collaborations between the addition and multiplication operations on a semiring.) Our study of Plus-Minus operations focuses on the additive integers but extends to ordered groups. For Plus Times operations, we make some headway in the case of the semiring of natural numbers. We produce an exhaustive list of associative collaborations between the usual addition and multiplication on the natural numbers <span>\\({\\mathbb {N}}\\)</span>. The Plus-Times operations we found are all examples of a type of construction which we define here and that we call <i>augmentations by multidentities</i>. An augmentation by multidentities combines two separate magmas <i>A</i> and <i>B</i> to create another, <i>A</i>(<i>B</i>), having <span>\\(A \\sqcup B\\)</span> as underlying set, and in such a way that the elements of <i>B</i> act as identities over those of <i>A</i>. Hence, <i>B</i> consists of a sort of multiple identities (explaining the moniker multidentities.) When <i>A</i> and <i>B</i> are both semigroups then so is <i>A</i>(<i>B</i>). Understanding the connection between certain collaborations and augmentation by multidenties removes, in several cases, the need for cumbersome computations to verify associativity. A final section discusses connections between group collaborations and skew braces.</p>","PeriodicalId":0,"journal":{"name":"","volume":null,"pages":null},"PeriodicalIF":0.0,"publicationDate":"2024-02-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"","FirstCategoryId":"100","ListUrlMain":"https://doi.org/10.1007/s00233-024-10408-y","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Given two operations \(*\) and \(\circ \) on a set S, an operation \(\star \) on S is said to be a collaboration between \(*\) and \(\circ \) if for all \(a,b \in S\), \(a \star b\)\(\in \{a *b, a\circ b \}\). Another term for collaborations is two-option operations. We are interested in learning what associative collaborations of two given operations \(*\) and \(\circ \) there may be. We do not require that \(*\) and \(\circ \) themselves be associative. For this project, as an initial experiment, we consider Plus-Minus operations (i.e. collaborations between addition and subtraction on an abelian group) and Plus-Times operations (i.e. collaborations between the addition and multiplication operations on a semiring.) Our study of Plus-Minus operations focuses on the additive integers but extends to ordered groups. For Plus Times operations, we make some headway in the case of the semiring of natural numbers. We produce an exhaustive list of associative collaborations between the usual addition and multiplication on the natural numbers \({\mathbb {N}}\). The Plus-Times operations we found are all examples of a type of construction which we define here and that we call augmentations by multidentities. An augmentation by multidentities combines two separate magmas A and B to create another, A(B), having \(A \sqcup B\) as underlying set, and in such a way that the elements of B act as identities over those of A. Hence, B consists of a sort of multiple identities (explaining the moniker multidentities.) When A and B are both semigroups then so is A(B). Understanding the connection between certain collaborations and augmentation by multidenties removes, in several cases, the need for cumbersome computations to verify associativity. A final section discusses connections between group collaborations and skew braces.
给定一个集合S上的两个操作((*\)和((\circ\)),如果对于所有的(a,b在S中),(a,star b)在({a *b,a\circ b \})中,那么S上的一个操作((star \))被认为是((*\)和((\circ\))之间的协作。协作的另一个术语是双选项操作。我们想知道两个给定的操作\(*\)和\(\circ \)有哪些关联协作。我们并不要求\(*\)和\(\circ \)本身是关联的。在这个项目中,作为最初的实验,我们考虑的是加减运算(即在一个无性群上加法和减法之间的协作)和加乘运算(即在一个半线上加法和乘法之间的协作)。我们对加减运算的研究侧重于加法整数,但也扩展到有序群。对于加减乘除运算,我们在自然数配系中取得了一些进展。我们列出了自然数 \({\mathbb {N}}\) 上通常的加法和乘法之间的关联协作的详尽列表。我们发现的加乘运算都是我们在此定义的一种构造类型的例子,我们称其为多重性增强。多重同一性增强将两个独立的岩浆 A 和 B 结合在一起,创建出另一个以 \(A \sqcup B\) 为底层集合的 A(B),并且以这样一种方式使 B 中的元素充当 A 中元素的同一性,因此,B 由某种多重同一性组成(这也是多重同一性这一名称的由来)。了解了某些协作与多重性增强之间的联系,在某些情况下,就不必再进行繁琐的计算来验证关联性了。最后一节讨论了群协作与斜括号之间的联系。
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