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An element $a\in R$ is very clean provided that there exists an idempotent $e\in R$ such that $ae=ea$ and either $a-e$ or $a+e$ is invertible. A ring $R$ is very clean in case every element in $R$ is very clean. We explore the necessary and…

Rings and Algebras · Mathematics 2014-06-06 H. Chen , B. Ungor , S. Halicioglu

A ring $R$ is called strongly clean if every element of $R$ is the sum of a unit and an idempotent that commute with each other. A recent result of Borooah, Diesl and Dorsey \cite{BDD05a} completely characterized the commutative local rings…

Rings and Algebras · Mathematics 2008-05-06 Xiande Yang , Yiqiang Zhou

An element $a$ in a ring $R$ is strongly J-clean if it is the sum of an idempotent and an element in the Jacobson radical that commutes. We characterize the strongly J-clean $2\times 2$ matrices over 2-projective-free non-commutative rings.

Rings and Algebras · Mathematics 2014-10-29 Marjan Sheibani Abdolyousefi , Hunyin Chen , Rahman Bahmani Sangesari

An element of a ring $R$ is strongly $P$-clean provided that it can be written as the sum of an idempotent and a strongly nilpotent element that commute. A ring $R$ is strongly $P$-clean in case each of its elements is strongly $P$-clean.…

Rings and Algebras · Mathematics 2015-07-14 Huanyin Chen , H. Kose , Y. Kurtulmaz

An element $a$ of a ring $R$ is called perfectly clean if there exists an idempotent $e\in comm^2(a)$ such that $a-e\in U(R)$. A ring $R$ is perfectly clean in case every element in $R$ is perfectly clean. In this paper, we investigate…

Rings and Algebras · Mathematics 2013-08-30 H. Chen , S. Halicioglu , H. Kose

An element $a$ of a ring $R$ is called \emph{strongly $J$-clean} provided that there exists an idempotent $e\in R$ such that $a-e\in J(R)$ and $ae=ea$. A ring $R$ is \emph{strongly $J$-clean} in case every element in $R$ is strongly…

Rings and Algebras · Mathematics 2016-03-27 Orhan Gurgun , Sait Halıcıoglu , Abdullah Harmanci

A ring $R$ is called strongly clean if every element of $R$ is the sum of a unit and an idempotent that commute. By {\rm SRC} factorization, Borooah, Diesl, and Dorsey \cite{BDD051} completely determined when ${\mathbb M}_n(R)$ over a…

Rings and Algebras · Mathematics 2008-08-20 Lingling Fan , Xiande Yang

A ring $R$ is (strongly) 2-nil-clean if every element in $R$ is the sum of two idempotents and a nilpotent (that commute). Fundamental properties of such rings are discussed. Let $R$ be a 2-primal ring. If $R$ is strongly 2-nil-clean, we…

Rings and Algebras · Mathematics 2016-11-03 H. Chen , M. Sheibani

A ring $R$ is strongly clean provided that every element in $R$ is the sum of an idempotent and a unit that commutate. Let $T_n(R,\sigma)$ be the skew triangular matrix ring over a local ring $R$ where $\sigma$ is an endomorphism of $R$. We…

Rings and Algebras · Mathematics 2013-06-12 H. Chen , H. Kose , Y. Kurtulmaz

A ring $R$ is uniquely (strongly) clean provided that for any $a\in R$ there exists a unique idempotent $e\in R \big(\in comm(a)\big)$ such that $a-e\in U(R)$. Let $R$ be a uniquely bleached ring. We prove, in this note, that $R$ is…

Rings and Algebras · Mathematics 2013-08-30 H. Chen , O. Gurgun , H. Kose

An element of a ring $R$ is called strongly $J^{\#}$-clean provided that it can be written as the sum of an idempotent and an element in $J^{\#}(R)$ that commute. We characterize, in this article, the strongly $J^{\#}$-cleanness of matrices…

Rings and Algebras · Mathematics 2014-06-06 H. Chen , H. Kose , Y. Kurtulmaz

A commutative ring $R$ is projective free provided that every finitely generated $R$-module is free. An element in a ring is strongly clean provided that it is the sum of an idempotent and a unit that commutates. Let $R$ be a…

Rings and Algebras · Mathematics 2013-08-30 H. Chen , H. Kose , Y. Kurtulmaz

Let $R$ be a commutative local ring. It is proved that $R$ is Henselian if and only if each $R$-algebra which is a direct limit of module finite $R$-algebras is strongly clean. So, the matrix ring $\mathbb{M}_n(R)$ is strongly clean for…

Rings and Algebras · Mathematics 2008-12-18 Francois Couchot

The literature about strongly clean matrices over commutative rings is quite extensive. The sharpest results are about matrices over commutative local rings, for example those by Borooah, Diesl and Dorsey. The purpose of this note is to…

Rings and Algebras · Mathematics 2014-01-10 Walter Burgess

We show that a ring $\,R\,$ has two idempotents $\,e,e'\,$ with an invertible commutator $\,ee'-e'e\,$ if and only if $\,R \cong {\mathbb M}_2(S)\,$ for a ring $\,S\,$ in which $\,1\,$ is a sum of two units. In this case, the…

Rings and Algebras · Mathematics 2018-09-11 Dinesh Khurana , T. Y. Lam

Let $R$ be a ring with unity. The clean graph $\text{Cl}(R)$ of a ring $R$ is the simple undirected graph whose vertices are of the form $(e,u)$, where $e$ is an idempotent element and $u$ is a unit of the ring $R$ and two vertices $(e,u)$,…

Combinatorics · Mathematics 2024-04-16 Praveen Mathil , Jitender Kumar

A *-ring $R$ is called a strongly nil-*-clean ring if every element of $R$ is the sum of a projection and a nilpotent element that commute with each other. In this article, we show that $R$ is a strongly nil-*-clean ring if and only if…

Rings and Algebras · Mathematics 2013-09-06 Huanyin Chen , Abdullah Harmanci , A. Cigdem Ozcan

A ring $R$ is said to be $n$-clean if every element can be written as a sum of an idempotent and $n$ units. The class of these rings contains clean ring and $n$-good rings in which each element is a sum of $n$ units. In this paper, we show…

Rings and Algebras · Mathematics 2007-05-23 Zhou Wang , Jianlong Chen

A ring R is a strongly 2-nil-clean if every element in R is the sum of two idempotents and a nilpotent that commute. A ring R is feebly clean if every element in R is the sum of two orthogonal idempotents and a unit. In this paper, strongly…

Rings and Algebras · Mathematics 2018-03-20 Huanyin Chen , Marjan Sheibani Abdolyousefi

An exchange ring $R$ is separative provided that for all finitely generated projective right $R$-modules $A$ and $B$, $A\oplus A\cong A\oplus B\cong B\oplus B\Longrightarrow A\cong B$. Let $R$ be a separative exchange ring in which $2$ is…

Rings and Algebras · Mathematics 2014-08-08 Huanyin Chen
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