{"title":"On Divisor Topology of Commutative Rings","authors":"Uğur Yiğit, Suat Koç","doi":"arxiv-2409.10577","DOIUrl":null,"url":null,"abstract":"Let $R\\ $be an integral domain and $R^{\\#}$ the set of all nonzero nonunits\nof $R.\\ $For every elements $a,b\\in R^{\\#},$ we define $a\\sim b$ if and only if\n$aR=bR,$ that is, $a$ and $b$ are associated elements. Suppose that\n$EC(R^{\\#})$ is the set of all equivalence classes of $R^{\\#}\\ $according to\n$\\sim$.$\\ $Let $U_{a}=\\{[b]\\in EC(R^{\\#}):b\\ $divides $a\\}$ for every $a\\in\nR^{\\#}.$ Then we prove that the family $\\{U_{a}\\}_{a\\in R^{\\#}}$ becomes a\nbasis for a topology on $EC(R^{\\#}).\\ $This topology is called divisor topology\nof $R\\ $and denoted by $D(R).\\ $We investigate the connections between the\nalgebraic properties of $R\\ $and the topological properties of$\\ D(R)$. In\nparticular, we investigate the seperation axioms on $D(R)$, first and second\ncountability axioms, connectivity and compactness on $D(R)$. We prove that for\natomic domains $R,\\ $the divisor topology $D(R)\\ $is a Baire space. Also, we\ncharacterize valution domains $R$ in terms of nested property of $D(R).$ In the\nlast section, we introduce a new topological proof of the infinitude of prime\nelements in a UFD and integers by using the topology $D(R)$.","PeriodicalId":501314,"journal":{"name":"arXiv - MATH - General Topology","volume":"10 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-09-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"arXiv - MATH - General Topology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/arxiv-2409.10577","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
Let $R\ $be an integral domain and $R^{\#}$ the set of all nonzero nonunits
of $R.\ $For every elements $a,b\in R^{\#},$ we define $a\sim b$ if and only if
$aR=bR,$ that is, $a$ and $b$ are associated elements. Suppose that
$EC(R^{\#})$ is the set of all equivalence classes of $R^{\#}\ $according to
$\sim$.$\ $Let $U_{a}=\{[b]\in EC(R^{\#}):b\ $divides $a\}$ for every $a\in
R^{\#}.$ Then we prove that the family $\{U_{a}\}_{a\in R^{\#}}$ becomes a
basis for a topology on $EC(R^{\#}).\ $This topology is called divisor topology
of $R\ $and denoted by $D(R).\ $We investigate the connections between the
algebraic properties of $R\ $and the topological properties of$\ D(R)$. In
particular, we investigate the seperation axioms on $D(R)$, first and second
countability axioms, connectivity and compactness on $D(R)$. We prove that for
atomic domains $R,\ $the divisor topology $D(R)\ $is a Baire space. Also, we
characterize valution domains $R$ in terms of nested property of $D(R).$ In the
last section, we introduce a new topological proof of the infinitude of prime
elements in a UFD and integers by using the topology $D(R)$.
对于R^{/#}中的每个元素$a,b,$我们定义$a/sim b$,当且仅当$aR=bR,$即$a$和$b$是关联元素。假设$EC(R^{/#})$是$R^{/#}/$的所有等价类的集合,根据$a/sim$.$让$U_{a}=/{[b]\in EC(R^{\#}):b$divides $a\$ for every $a\inR^{\#}.然后我们证明${U_{a}\}_{a\in R^{\#}}$ 系列在$EC(R^{/\#})上的拓扑学中变得无足轻重。\ $We research the connections between thealgebraic properties of $R\$ and the topological properties of $D(R)$.特别是,我们研究了$D(R)$上的分离公理、第一可数公理和第二可数公理、连通性和紧凑性。我们证明,对于原子域 $R,\$,除数拓扑 $D(R)\$ 是一个拜尔空间。在最后一节中,我们利用拓扑 $D(R)$ 介绍了 UFD 和整数中原元无穷大的新拓扑证明。
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