On the eigenvalues of zero-divisor graph associated to finite commutative ring

Let [Formula: see text] be a finite commutative ring without identity. In this paper, we characterize all finite commutative rings without identity, whose zero-divisor graphs are unicyclic, claw-free and tree. Also, we obtain all finite commutative rings without identity and of cube-free order for which the corresponding zero-divisor graph is toroidal.

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Divisor graph of the complement of Γ(R)

Asian-European Journal of Mathematics ◽

10.1142/s1793557119500578 ◽

2019 ◽

Vol 12 (04) ◽

pp. 1950057

Author(s):

Ravindra Kumar ◽

Om Prakash

Keyword(s):

Commutative Ring ◽

Local Ring ◽

Integral Domain ◽

Zero Divisor ◽

Local Rings ◽

Zero Divisor Graph ◽

Finite Commutative Ring

Let [Formula: see text] be the complement of the zero-divisor graph of a finite commutative ring [Formula: see text]. In this paper, we provide the answer of the question (ii) raised by Osba and Alkam in [11] and prove that [Formula: see text] is a divisor graph if [Formula: see text] is a local ring. It is shown that when [Formula: see text] is a product of two local rings, then [Formula: see text] is a divisor graph if one of them is an integral domain. Further, if [Formula: see text], then [Formula: see text] is a divisor graph.

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Computing Vertex-Based Eccentric Topological Descriptors of Zero-Divisor Graph Associated with Commutative Rings

Mathematical Problems in Engineering ◽

10.1155/2020/2056902 ◽

2020 ◽

Vol 2020 ◽

pp. 1-6

Author(s):

Abdullah Ali H. Ahmadini ◽

Ali N. A. Koam ◽

Ali Ahmad ◽

Martin Bača ◽

Andrea Semaničová–Feňovčíková

Keyword(s):

Commutative Ring ◽

Communication Theory ◽

Zero Divisor ◽

Commutative Rings ◽

Topological Indices ◽

Topological Descriptors ◽

Zero Divisor Graph ◽

Finite Commutative Ring

The applications of finite commutative ring are useful substances in robotics and programmed geometric, communication theory, and cryptography. In this paper, we study the vertex-based eccentric topological indices of a zero-divisor graphs of commutative ring ℤp2×ℤq, where p and q are primes.

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On distance Laplacian spectrum of zero divisor graphs of the ring $\mathbb{Z}_{n}$

Carpathian Mathematical Publications ◽

10.15330/cmp.13.1.48-57 ◽

2021 ◽

Vol 13 (1) ◽

pp. 48-57 ◽

Cited By ~ 1

Author(s):

S. Pirzada ◽

B.A. Rather ◽

T.A. Chishti

Keyword(s):

Commutative Ring ◽

Connected Graph ◽

Zero Divisor ◽

Laplacian Spectrum ◽

Zero Divisor Graph ◽

Zero Divisors ◽

Vertex Set ◽

Finite Commutative Ring ◽

Simple Connected Graph

For a finite commutative ring $\mathbb{Z}_{n}$ with identity $1\neq 0$, the zero divisor graph $\Gamma(\mathbb{Z}_{n})$ is a simple connected graph having vertex set as the set of non-zero zero divisors, where two vertices $x$ and $y$ are adjacent if and only if $xy=0$. We find the distance Laplacian spectrum of the zero divisor graphs $\Gamma(\mathbb{Z}_{n})$ for different values of $n$. Also, we obtain the distance Laplacian spectrum of $\Gamma(\mathbb{Z}_{n})$ for $n=p^z$, $z\geq 2$, in terms of the Laplacian spectrum. As a consequence, we determine those $n$ for which zero divisor graph $\Gamma(\mathbb{Z}_{n})$ is distance Laplacian integral.

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ON RINGS R WHOSE GRAPHS Γ(R) SATISFY CONDITION (Kp)

Journal of Algebra and Its Applications ◽

10.1142/s0219498811004835 ◽

2011 ◽

Vol 10 (04) ◽

pp. 665-674

Author(s):

LI CHEN ◽

TONGSUO WU

Keyword(s):

Prime Number ◽

Commutative Ring ◽

Complete Graph ◽

Zero Divisor ◽

Commutative Rings ◽

Satisfy Condition ◽

Induced Subgraph ◽

Zero Divisor Graph ◽

Ring Graph ◽

Finite Commutative Rings

Let p be a prime number. Let G = Γ(R) be a ring graph, i.e. the zero-divisor graph of a commutative ring R. For an induced subgraph H of G, let CG(H) = {z ∈ V(G) ∣N(z) = V(H)}. Assume that in the graph G there exists an induced subgraph H which is isomorphic to the complete graph Kp-1, a vertex c ∈ CG(H), and a vertex z such that d(c, z) = 3. In this paper, we characterize the finite commutative rings R whose graphs G = Γ(R) have this property (called condition (Kp)).

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A generalized ideal-based zero-divisor graph

Journal of Algebra and Its Applications ◽

10.1142/s0219498815500796 ◽

2015 ◽

Vol 14 (06) ◽

pp. 1550079 ◽

Cited By ~ 1

Author(s):

M. J. Nikmehr ◽

S. Khojasteh

Keyword(s):

Prime Ideal ◽

Commutative Ring ◽

Chromatic Number ◽

Zero Divisor ◽

Undirected Graph ◽

Clique Number ◽

Proper Ideal ◽

Graph Structure ◽

Zero Divisor Graph ◽

Vertex Set

Let R be a commutative ring with identity, I its proper ideal and M be a unitary R-module. In this paper, we introduce and study a kind of graph structure of an R-module M with respect to proper ideal I, denoted by ΓI(RM) or simply ΓI(M). It is the (undirected) graph with the vertex set M\{0} and two distinct vertices x and y are adjacent if and only if [x : M][y : M] ⊆ I. Clearly, the zero-divisor graph of R is a subgraph of Γ0(R); this is an important result on the definition. We prove that if ann R(M) ⊆ I and H is the subgraph of ΓI(M) induced by the set of all non-isolated vertices, then diam (H) ≤ 3 and gr (ΓI(M)) ∈ {3, 4, ∞}. Also, we prove that if Spec (R) and ω(Γ Nil (R)(M)) are finite, then χ(Γ Nil (R)(M)) ≤ ∣ Spec (R)∣ + ω(Γ Nil (R)(M)). Moreover, for a secondary R-module M and prime ideal P, we determine the chromatic number and the clique number of ΓP(M), where ann R(M) ⊆ P. Among other results, it is proved that for a semisimple R-module M with ann R(M) ⊆ I, ΓI(M) is a forest if and only if ΓI(M) is a union of isolated vertices or a star.

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Some properties of zero divisor graph obtained by the ring Zp × Zq × Zr

Asian-European Journal of Mathematics ◽

10.1142/s179355712040001x ◽

2019 ◽

Vol 12 (06) ◽

pp. 2040001

Author(s):

Nihat Akgunes ◽

Yasar Nacaroglu

Keyword(s):

Commutative Ring ◽

Zero Divisor ◽

Topological Indices ◽

Zero Divisor Graph

The concept of zero-divisor graph of a commutative ring was introduced by Beck [Coloring of commutating ring, J. Algebra 116 (1988) 208–226]. In this paper, we present some properties of zero divisor graphs obtained from ring [Formula: see text], where [Formula: see text] and [Formula: see text] are primes. Also, we give some degree-based topological indices of this special graph.

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Associate class graph of zero-divisors of a commutative ring

Journal of Algebra and Its Applications ◽

10.1142/s0219498820501558 ◽

2019 ◽

Vol 19 (08) ◽

pp. 2050155

Author(s):

Gaohua Tang ◽

Guangke Lin ◽

Yansheng Wu

Keyword(s):

Commutative Ring ◽

Chromatic Number ◽

Zero Divisor ◽

New Class ◽

Associate Class ◽

Zero Divisor Graph ◽

Zero Divisors ◽

Class Graph

In this paper, we introduce the concept of the associate class graph of zero-divisors of a commutative ring [Formula: see text], denoted by [Formula: see text]. Some properties of [Formula: see text], including the diameter, the connectivity and the girth are investigated. Utilizing this graph, we present a new class of counterexamples of Beck’s conjecture on the chromatic number of the zero-divisor graph of a commutative ring.

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A ZERO-DIVISOR GRAPH FOR MODULES WITH RESPECT TO THEIR (FIRST) DUAL

Journal of Algebra and Its Applications ◽

10.1142/s0219498812501514 ◽

2012 ◽

Vol 12 (02) ◽

pp. 1250151 ◽

Cited By ~ 7

Author(s):

M. BAZIAR ◽

E. MOMTAHAN ◽

S. SAFAEEYAN

Keyword(s):

Commutative Ring ◽

Chromatic Number ◽

Complete Graph ◽

Projective Module ◽

Zero Divisor ◽

Undirected Graph ◽

Clique Number ◽

Covariant Functor ◽

Zero Divisor Graph

Let M be an R-module. We associate an undirected graph Γ(M) to M in which nonzero elements x and y of M are adjacent provided that xf(y) = 0 or yg(x) = 0 for some nonzero R-homomorphisms f, g ∈ Hom (M, R). We observe that over a commutative ring R, Γ(M) is connected and diam (Γ(M)) ≤ 3. Moreover, if Γ(M) contains a cycle, then gr (Γ(M)) ≤ 4. Furthermore if ∣Γ(M)∣ ≥ 1, then Γ(M) is finite if and only if M is finite. Also if Γ(M) = ∅, then any nonzero f ∈ Hom (M, R) is monic (the converse is true if R is a domain). For a nonfinitely generated projective module P we observe that Γ(P) is a complete graph. We prove that for a domain R the chromatic number and the clique number of Γ(M) are equal. When R is self-injective, we will also observe that the above adjacency defines a covariant functor between a subcategory of R-MOD and the Category of graphs.

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When Is the Complement of the Zero-Divisor Graph of a Commutative Ring Complemented?

ISRN Algebra ◽

10.5402/2012/282054 ◽

2012 ◽

Vol 2012 ◽

pp. 1-13 ◽

Cited By ~ 1

Author(s):

S. Visweswaran

Keyword(s):

Commutative Ring ◽

Zero Divisor ◽

Zero Divisor Graph ◽

Zero Divisors

Let be a commutative ring with identity which has at least two nonzero zero-divisors. Suppose that the complement of the zero-divisor graph of has at least one edge. Under the above assumptions on , it is shown in this paper that the complement of the zero-divisor graph of is complemented if and only if is isomorphic to as rings. Moreover, if is not isomorphic to as rings, then, it is shown that in the complement of the zero-divisor graph of , either no vertex admits a complement or there are exactly two vertices which admit a complement.

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