• Title/Summary/Keyword: unit-regular

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ON A GENERALIZATION OF UNIT REGULAR RINGS

  • Tahire Ozen
    • Bulletin of the Korean Mathematical Society
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    • v.60 no.6
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    • pp.1463-1475
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    • 2023
  • In this paper, we introduce a class of rings generalizing unit regular rings and being a subclass of semipotent rings, which is called idempotent unit regular. We call a ring R an idempotent unit regular ring if for all r ∈ R - J(R), there exist a non-zero idempotent e and a unit element u in R such that er = eu, where this condition is left and right symmetric. Thus, we have also that there exist a non-zero idempotent e and a unit u such that ere = eue for all r ∈ R - J(R). Various basic characterizations and properties of this class of rings are proved and it is given the relationships between this class of rings and some well-known classes of rings such as semiperfect, clean, exchange and semipotent. Moreover, we obtain some results about when the endomorphism ring of a module in a class of left R-modules X is idempotent unit regular.

GROUP ACTIONS IN A UNIT-REGULAR RING WITH COMMUTING IDEMPOTENTS

  • Han, Jun-Cheol
    • East Asian mathematical journal
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    • v.25 no.4
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    • pp.433-440
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    • 2009
  • Let R be a ring with unity, X the set of all nonzero, nonunits of R and G the group of all units of R. We will consider some group actions on X by G, the left (resp. right) regular action and the conjugate action. In this paper, by investigating these group actions we can have some results as follows: First, if E(R), the set of all nonzero nonunit idempotents of a unit-regular ring R, is commuting, then $o_{\ell}(x)\;=\;o_r(x)$, $o_c(x)\;=\;\{x\}$ for all $x\;{\in}\;X$ where $o_{\ell}(x)$ (resp. $o_r(x)$, $o_c(x)$) is the orbit of x under the left regular (resp. right regular, conjugate) action on X by G and R is abelian regular. Secondly, if R is a unit-regular ring with unity 1 such that G is a cyclic group and $2\;=\;1\;+\;1\;{\in}\;G$, then G is a finite group. Finally, if R is an abelian regular ring such that G is an abelian group, then R is a commutative ring.

RINGS CLOSE TO SEMIREGULAR

  • Aydogdu, Pinar;Lee, Yang;Ozcan, A. Cigdem
    • Journal of the Korean Mathematical Society
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    • v.49 no.3
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    • pp.605-622
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    • 2012
  • A ring $R$ is called semiregular if $R/J$ is regular and idem-potents lift modulo $J$, where $J$ denotes the Jacobson radical of $R$. We give some characterizations of rings $R$ such that idempotents lift modulo $J$, and $R/J$ satisfies one of the following conditions: (one-sided) unit-regular, strongly regular, (unit, strongly, weakly) ${\pi}$-regular.

AN APPLICATION OF TILINGS IN THE HYPERBOLIC PLANE

  • Park, Jong-Youll
    • Honam Mathematical Journal
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    • v.29 no.3
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    • pp.481-493
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    • 2007
  • We will construct several types of semi-regular tilings of a hyperbolic unit disk model by defining geometric features of the definition of distance in a hyperbolic plane, area of triangle, and isometry of inversions. We researched the method of regular tilings and semi-regular tilings of hyperbolic unit disk model and wrote an semi-regular tiling construction algorithm using Cabri2 program and Cinderella program. Lastly, We want to make a product related to traditional heritage cultural patterns using Photoshop, so we'll model the advertising photos of cites; Seoul, Gwangju.

GROUP ACTIONS IN A REGULAR RING

  • HAN, Jun-Cheol
    • Bulletin of the Korean Mathematical Society
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    • v.42 no.4
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    • pp.807-815
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    • 2005
  • Let R be a ring with identity, X the set of all nonzero, nonunits of Rand G the group of all units of R. We will consider two group actions on X by G, the regular action and the conjugate action. In this paper, by investigating two group actions we can have some results as follows: First, if G is a finitely generated abelian group, then the orbit O(x) under the regular action on X by G is finite for all nilpotents x $\in$ X. Secondly, if F is a field in which 2 is a unit and F $\backslash\;\{0\}$ is a finitley generated abelian group, then F is finite. Finally, if G in a unit-regular ring R is a torsion group and 2 is a unit in R, then the conjugate action on X by G is trivial if and only if G is abelian if and only if R is commutative.

ON THE SEMIGROUP OF PARTITION-PRESERVING TRANSFORMATIONS WHOSE CHARACTERS ARE BIJECTIVE

  • Mosarof Sarkar;Shubh N. Singh
    • Bulletin of the Korean Mathematical Society
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    • v.61 no.1
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    • pp.117-133
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    • 2024
  • Let 𝓟 = {Xi : i ∈ I} be a partition of a set X. We say that a transformation f : X → X preserves 𝓟 if for every Xi ∈ 𝓟, there exists Xj ∈ 𝓟 such that Xif ⊆ Xj. Consider the semigroup 𝓑(X, 𝓟) of all transformations f of X such that f preserves 𝓟 and the character (map) χ(f): I → I defined by iχ(f) = j whenever Xif ⊆ Xj is bijective. We describe Green's relations on 𝓑(X, 𝓟), and prove that 𝒟 = 𝒥 on 𝓑(X, 𝓟) if 𝓟 is finite. We give a necessary and sufficient condition for 𝒟 = 𝒥 on 𝓑(X, 𝓟). We characterize unit-regular elements in 𝓑(X, 𝓟), and determine when 𝓑(X, 𝓟) is a unit-regular semigroup. We alternatively prove that 𝓑(X, 𝓟) is a regular semigroup. We end the paper with a conjecture.

RINGS WITH MANY REGULAR ELEMENTS

  • Ashrafi, Nahid;Nasibi, Ebrahim
    • Communications of the Korean Mathematical Society
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    • v.32 no.2
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    • pp.267-276
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    • 2017
  • In this paper we introduce rings that satisfy regular 1-stable range. These rings are left-right symmetric and are generalizations of unit 1-stable range. We investigate characterizations of these kind of rings and show that these rings are closed under matrix rings and Morita Context rings.

ON SOME TYPE ELEMENTS OF ZERO-SYMMETRIC NEAR-RING OF POLYNOMIALS

  • Hashemi, Ebrahim;Shokuhifar, Fatemeh
    • Journal of the Korean Mathematical Society
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    • v.56 no.1
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    • pp.183-195
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    • 2019
  • Let R be a commutative ring with unity. In this paper, we characterize the unit elements, the regular elements, the ${\pi}$-regular elements and the clean elements of zero-symmetric near-ring of polynomials $R_0[x]$, when $nil(R)^2=0$. Moreover, it is shown that the set of ${\pi}$-regular elements of $R_0[x]$ forms a semigroup. These results are somewhat surprising since, in contrast to the polynomial ring case, the near-ring of polynomials has substitution for its "multiplication" operation.