LATTICE DECOMPOSITION OF MODULES

IF 0.5 Q3 MATHEMATICS International Electronic Journal of Algebra Pub Date : 2021-02-01 DOI:10.24330/IEJA.969940
J. M. Garc'ia, P. Jara, L. Merino
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Abstract

The first aim of this work is to characterize when the lattice of all submodules of a module is a direct product of two lattices. In particular, which decompositions of a module $M$ produce these decompositions: the \emph{lattice decompositions}. In a first \textit{etage} this can be done using endomorphisms of $M$, which produce a decomposition of the ring $\textrm{End}_R(M)$ as a product of rings, i.e., they are central idempotent endomorphisms. But since not every central idempotent endomorphism produces a lattice decomposition, the classical theory is not of application. In a second step we characterize when a particular module $M$ has a lattice decomposition; this can be done, in the commutative case in a simple way using the support, $\textrm{Supp}(M)$, of $M$; but, in general, it is not so easy. Once we know when a module decomposes, we look for characterizing its decompositions. We show that a good framework for this study, and its generalizations, could be provided by the category $\sigma[M]$, the smallest Grothendieck subcategory of $\textbf{Mod}-{R}$ containing $M$.
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模组的点阵分解
这项工作的第一个目的是刻画当一个模的所有子模的格是两个格的直积时。特别是,模块$M$的哪些分解产生了这些分解:\emph{格分解}。在第一个\textit{etage}中,这可以使用$M$的自同态来完成,这产生了环$\textrm的分解{End}_R(M) $作为环的乘积,即它们是中心幂等自同态。但由于不是每个中心幂等自同态都产生格分解,因此经典理论不适用。在第二步中,我们表征特定模块$M$何时具有晶格分解;在交换情况下,这可以通过使用$M$的支持$\textrm{Supp}(M)$以简单的方式完成;但总的来说,这并不容易。一旦我们知道模块何时分解,我们就会寻找其分解的特征。我们证明,$\textbf的最小Grothendieck子类别$\sigma[M]$可以为这项研究及其推广提供一个很好的框架{Mod}-{R} 包含$M$的$。
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来源期刊
CiteScore
0.90
自引率
16.70%
发文量
36
审稿时长
36 weeks
期刊介绍: The International Electronic Journal of Algebra is published twice a year. IEJA is reviewed by Mathematical Reviews, MathSciNet, Zentralblatt MATH, Current Mathematical Publications. IEJA seeks previously unpublished papers that contain: Module theory Ring theory Group theory Algebras Comodules Corings Coalgebras Representation theory Number theory.
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