• Title/Summary/Keyword: Direct injective module

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Some Results on Simple-Direct-Injective Modules

  • Derya Keskin Tutuncu;Rachid Tribak
    • Kyungpook Mathematical Journal
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    • v.63 no.4
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    • pp.521-537
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    • 2023
  • A module M is called a simple-direct-injective module if, whenever A and B are simple submodules of M with A ≅ B and B is a direct summand of M, then A is a direct summand of M. Some new characterizations of these modules are proved. The structure of simple-direct-injective modules over a commutative Dedekind domain is fully determined. Also, some relevant counterexamples are indicated to show that a left simple-direct-injective ring need not be right simple-direct-injective.

GENERALIZATIONS OF THE QUASI-INJECTIVE MODULE

  • Han, Chang-Woo;Choi, Su-Jeong
    • Communications of the Korean Mathematical Society
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    • v.10 no.4
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    • pp.811-813
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    • 1995
  • The purpose of this paper is to prove the divisibility of a direct injective module and every closed submodule of a $\pi$-injective module M is a direct summand of M.

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EQUIVALENT CONDITIONS FOR A DIRECT INJECTIVE MODULE

  • Choi, Su-Jeong;Han, Chang-Woo
    • The Pure and Applied Mathematics
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    • v.8 no.2
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    • pp.175-183
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    • 2001
  • The purpose of this paper is to find the necessary find sufficient conditions for a module to be a direct injective module. Moreover, we focus on the possibility that a direct injective module can be related with arbitrary module and Hom functor like an injective module.

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SOME PROPERTIES OF A DIRECT INJECTIVE MODULE

  • Chang, Woo-Han;Choi, Su-Jeong
    • The Pure and Applied Mathematics
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    • v.6 no.1
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    • pp.9-12
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    • 1999
  • The purpose of this paper is to show that by the divisibility of a direct injective module, we obtain some results with respect to a direct injective module.

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INJECTIVE MODULES OVER ω-NOETHERIAN RINGS, II

  • Zhang, Jun;Wang, Fanggui;Kim, Hwankoo
    • Journal of the Korean Mathematical Society
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    • v.50 no.5
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    • pp.1051-1066
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    • 2013
  • By utilizing known characterizations of ${\omega}$-Noetherian rings in terms of injective modules, we give more characterizations of ${\omega}$-Noetherian rings. More precisely, we show that a commutative ring R is ${\omega}$-Noetherian if and only if the direct limit of GV -torsion-free injective R-modules is injective; if and only if every R-module has a GV -torsion-free injective (pre)cover; if and only if the direct sum of injective envelopes of ${\omega}$-simple R-modules is injective; if and only if the essential extension of the direct sum of GV -torsion-free injective R-modules is the direct sum of GV -torsion-free injective R-modules; if and only if every $\mathfrak{F}_{w,f}(R)$-injective ${\omega}$-module is injective; if and only if every GV-torsion-free R-module admits an $i$-decomposition.

Direct sum decompositions of indecomposable injective modules

  • Lee, Sang-Cheol
    • Bulletin of the Korean Mathematical Society
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    • v.35 no.1
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    • pp.33-43
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    • 1998
  • Matlis posed the following question in 1958: if N is a direct summand of a direct sum M of indecomposable injectives, then is N itself a direct sum of indecomposable innjectives\ulcorner It will be proved that the Matlis problem has an affirmative answer when M is a multiplication module, and that a weaker condition then that of M being a multiplication module can be given to module M when M is a countable direct sum of indecomposable injectives.

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(CO)RETRACTABILITY AND (CO)SEMI-POTENCY

  • Hakmi, Hamza
    • Korean Journal of Mathematics
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    • v.25 no.4
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    • pp.587-606
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    • 2017
  • This paper is a continuation of study semi-potentness endomorphism rings of module. We give some other characterizations of endomorphism ring to be semi-potent. New results are obtained including necessary and sufficient conditions for the endomorphism ring of semi(injective) projective module to be semi-potent. Finally, we characterize a module M whose endomorphism ring it is semi-potent via direct(injective) projective modules. Several properties of the endomorphism ring of a semi(injective) projective module are obtained. Besides to that, many necessary and sufficient conditions are obtained for semi-projective, semi-injective modules to be semi-potent and co-semi-potent modules.

Semi M-Projective and Semi N-Injective Modules

  • Hakmi, Hamza
    • Kyungpook Mathematical Journal
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    • v.56 no.1
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    • pp.83-94
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    • 2016
  • Let M and N be modules over a ring R. The purpose of this paper is to study modules M, N for which the bi-module [M, N] is regular or pi. It is proved that the bi-module [M, N] is regular if and only if a module N is semi M-projective and $Im({\alpha}){\subseteq}^{\oplus}N$ for all ${\alpha}{\in}[M,N]$, if and only if a module M is semi N-injective and $Ker({\alpha}){\subseteq}^{\oplus}N$ for all ${\alpha}{\in}[M,N]$. Also, it is proved that the bi-module [M, N] is pi if and only if a module N is direct M-projective and for any ${\alpha}{\in}[M,N]$ there exists ${\beta}{\in}[M,N]$ such that $Im({\alpha}{\beta}){\subseteq}^{\oplus}N$, if and only if a module M is direct N-injective and for any ${\alpha}{\in}[M,N]$ there exists ${\beta}{\in}[M,N]$ such that $Ker({\beta}{\alpha}){\subseteq}^{\oplus}M$. The relationship between the Jacobson radical and the (co)singular ideal of [M, N] is described.

Some extensions on the injective cover and precover

  • Park, Sang-Won
    • Communications of the Korean Mathematical Society
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    • v.11 no.2
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    • pp.285-294
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    • 1996
  • In this paper, we show relations between injective covers and direct sums, some commutative properties, and composition properties in the injective covers.

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INJECTIVE REPRESENTATIONS OF QUIVERS

  • Park, Sang-Won;Shin, De-Ra
    • Communications of the Korean Mathematical Society
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    • v.21 no.1
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    • pp.37-43
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    • 2006
  • We prove that $M_1\longrightarrow^f\;M_2$ is an injective representation of a quiver $Q={\bullet}{\rightarrow}{\bullet}$ if and only if $M_1\;and\;M_2$ are injective left R-modules, $M_1\longrightarrow^f\;M_2$ is isomorphic to a direct sum of representation of the types $E_l{\rightarrow}0$ and $M_1\longrightarrow^{id}\;M_2$ where $E_l\;and\;E_2$ are injective left R-modules. Then, we generalize the result so that a representation$M_1\longrightarrow^{f_1}\;M_2\; \longrightarrow^{f_2}\;\cdots\;\longrightarrow^{f_{n-1}}\;M_n$ of a quiver $Q={\bullet}{\rightarrow}{\bullet}{\rightarrow}{\cdots}{\rightarrow}{\bullet}$ is an injective representation if and only if each $M_i$ is an injective left R-module and the representation is a direct sum of injective representations.