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A $*$-ring $R$ is called (strongly) $*$-clean if every element of $R$ is the sum of a projection and a unit (which commute with each other). In this note, some properties of $*$-clean rings are considered. In particular, a new class of…

Rings and Algebras · Mathematics 2015-01-14 Jian Cui , Zhou Wang

Let $R$ be a commutative ring with unity and $C$ be an $R$-coalgebra. The ring $R$ is clean if every $ r\in R $ is the sum of a unit and an idempotent element of $R$. An $R$-module $M$ is clean if the endomorphism ring of $M$ over $R$ is…

Rings and Algebras · Mathematics 2022-04-08 Nikken Prima Puspita , Indah Emilia Wijayanti , Budi Surodjo

Many authors have investigated the behavior of strong cleanness under certain ring extensions. In this note, we prove that if $R$ is a ring which is complete with respect to an ideal $I$ and if $x$ is an element of $R$ whose image in $R/I$…

Rings and Algebras · Mathematics 2009-07-15 Alexander J. Diesl , Thomas J. Dorsey

An element of a ring is unique clean if it can be uniquely written as the sum of an idempotent and a unit. A ring $R$ is uniquely $\pi$-clean if some power of every element in $R$ is uniquely clean. In this article, we prove that a ring $R$…

Rings and Algebras · Mathematics 2014-07-01 Huanyin Chen

An element $x \in R$ is considered (strongly) nil-clean if it can be expressed as the sum of an idempotent $e \in R$ and a nilpotent $b \in R$ (where $eb = be$). If for any $x \in R$, there exists a unit $u \in R$ such that $ux$ is…

Rings and Algebras · Mathematics 2024-02-06 Ruhollah Barati

A ring $R$ is feckly clean provided that for any $a\in R$ there exists an element $e\in R$ and a full element $u\in R$ such that $a=e+u, eR(1-e)\subseteq J(R)$. We prove that a ring $R$ is feckly clean if and only if for any $a\in R$, there…

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

A unital ring is called clean (resp. strongly clean) if every element can be written as the sum of an invertible element and an idempotent (resp. an invertible element and an idempotent that commutes). T.Y. Lam proposed a question: which…

Operator Algebras · Mathematics 2022-01-13 Lu Cui , Linzhe Huang , Wenming Wu , Wei Yuan , Hanbin Zhang

A ring $R$ is said to be clean if each element of $R$ can be written as the sum of a unit and an idempotent. $R$ is said to be weakly clean if each element of $R$ is either a sum or a difference of a unit and an idempotent, and $R$ is said…

Rings and Algebras · Mathematics 2021-01-01 Yuanlin Li , Qinghai Zhong

The notion of clean rings and 2-good rings have many variations, and have been widely studied. We provide a few results about two new variations of these concepts and discuss the theory that ties these variations to objects and properties…

Rings and Algebras · Mathematics 2015-12-16 Alexi Block Gorman , Wing Yan Shiao

A ring R is Zhou nil-clean if every element in R is the sum of two tripotents and a nilpotent that commute. Let R be a Zhou nil-clean ring. If R is 2-primal (of bounded index), we prove that every square matrix over R is the sum of two…

Rings and Algebras · Mathematics 2017-02-28 Marjan Sheibani Abdolyousefi , Huanyin Chen

An element of a ring R is called clean if it is the sum of an idempotent and a unit. A ring R is called clean if each of its element is clean. An element r \in R called regular if r = ryr for some y \in R. The ring R is regular if each of…

Rings and Algebras · Mathematics 2011-05-04 Nahid Ashrafi , Ebrahim Nasibi

A ring $R$ with an involution * is called (strongly) *-clean if every element of $R$ is the sum of a unit and a projection (that commute). All *-clean rings are clean. Va${\rm \check{s}}$ [L. Va${\rm \check{s}}$, *-Clean rings; some clean…

Rings and Algebras · Mathematics 2011-07-07 Jianlong Chen , Jian Cui

A ring is clean (almost clean) if each of its elements is the sum of a unit (regular element) and an idempotent. A module is clean (almost clean) if its endomorphism ring is clean (almost clean). We show that every quasi-continuous and…

Rings and Algebras · Mathematics 2013-05-10 Evrim Akalan , Lia Vas

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

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

We define and examine the class of {\it strongly \( J^{\#} \)-clean rings} consisting of those rings $R$ such that each element of $R$ is the sum of an idempotent from $R$ and an element from $J^{\#}(R)$ that commute with each other. More…

Rings and Algebras · Mathematics 2025-08-26 Peter Danchev , Gholamreza Karamali , Omid Hasanzadeh , Mehrdad Esfandiar

It is proved that a commutative ring is clean if and only if it is Gelfand with a totally disconnected maximal spectrum. Commutative rings for which each indecomposable module has a local endomorphism ring are studied. These rings are clean…

Rings and Algebras · Mathematics 2007-05-23 Francois Couchot

An element in a ring $R$ is called clear if it is the sum of unit-regular element and unit. An associative ring is clear if every its element is clear. In this paper we defined clear rings and extended many results to wider class. Finally,…

Commutative Algebra · Mathematics 2020-05-08 Bohdan Zabavsky , Olha Domsha , Oleh Romaniv

We consider in-depth and characterize in certain aspects the class of so-called {\it strongly NUS-nil clean rings}, that are those rings whose non-units are {\it square nil-clean} in the sense that they are a sum of a nilpotent and a…

Rings and Algebras · Mathematics 2025-08-05 Mina Doostalizadeh , Ahmad Moussavi , Peter Danchev

Let $R$ be an associative ring with identity, $C(R)$ denote the center of $R$, and $g(x)$ be a polynomial in the polynomial ring $C(R)[x]$. $R$ is called strongly $g(x)$-clean if every element $r \in R$ can be written as $r=s+u$ with…

Rings and Algebras · Mathematics 2008-03-25 Lingling Fan , Xiande Yang