Research Article
Year 2021,
, 110 - 119, 04.02.2021
Abstract
References
- [1] D.F. Anderson and A. Badawi, The total graph of a commutative ring, J. Algebra, 320, 2706–2719, 2008.
- [2] D.F. Anderson and A. Badawi, The total graph of a commutative ring without the zero element, J. Algebra Appl. 11 1–18 pages, 2012.
- [3] G.J. Chang, C. Chen and Y. Chen, Vertex and tree arboricities of graphs, J. Comb. Optim. 8 295–306, 2004.
- [4] G. Chartrand, H.V. Kronk and C.E. Wall, The point arboricity of a graph, Israel J. Math. 6, 169–175, 1968.
- [5] T.T. Chelvam and T. Asir, On the genus of the total graph of a commutative ring, Comm. Algebra, 41, 142–153, 2013.
- [6] B. Corbas and G.D. Williams, Ring of order p5. II. Local rings, J. Algebra, 231 (2), 691–704, 2000.
- [7] H.R. Maimani, C. Wickham and S. Yassemi, Rings whose total graph have genus at most one, Rocky Mountain J. Math. 42, 1551–1560, 2012.
- [8] B.R. McDonald, Finite rings with identity , Pure Appl. Math. 28, Marcel Dekker, Inc., New York, 1974.
- [9] C.St.J.A. Nash-Williams, Decomposition of finite graphs into forests, Journal London Math. Soc, 39, 12, 1964.
- [10] R. Raghavendran, iFinite associative rings, Compositio Math. 21, 195–229, 1969.
- [11] S.P. Redmond, On zero-divisor graphs of small finite commutative rings, Discrete Math. 307, 1155–1166, 2007.
Year 2021,
, 110 - 119, 04.02.2021
Abstract
Let $R$ be a commutative ring with non-zero identity, and $Z(R)$ be its set of all zero-divisors. The total graph of $R$, denoted by $T(\Gamma(R))$, is an undirected graph with all elements of $R$ as vertices, and two distinct vertices $x$ and $y$ are adjacent if and only if $x+y\in Z(R)$. In this article, we characterize, up to isomorphism, all of finite commutative rings whose total graphs have vertex-arboricity (arboricity) two or three. Also, we show that, for a positive integer $v$, the number of finite rings whose total graphs have vertex-arboricity (arboricity) $v$ is finite.
Keywords
References
- [1] D.F. Anderson and A. Badawi, The total graph of a commutative ring, J. Algebra, 320, 2706–2719, 2008.
- [2] D.F. Anderson and A. Badawi, The total graph of a commutative ring without the zero element, J. Algebra Appl. 11 1–18 pages, 2012.
- [3] G.J. Chang, C. Chen and Y. Chen, Vertex and tree arboricities of graphs, J. Comb. Optim. 8 295–306, 2004.
- [4] G. Chartrand, H.V. Kronk and C.E. Wall, The point arboricity of a graph, Israel J. Math. 6, 169–175, 1968.
- [5] T.T. Chelvam and T. Asir, On the genus of the total graph of a commutative ring, Comm. Algebra, 41, 142–153, 2013.
- [6] B. Corbas and G.D. Williams, Ring of order p5. II. Local rings, J. Algebra, 231 (2), 691–704, 2000.
- [7] H.R. Maimani, C. Wickham and S. Yassemi, Rings whose total graph have genus at most one, Rocky Mountain J. Math. 42, 1551–1560, 2012.
- [8] B.R. McDonald, Finite rings with identity , Pure Appl. Math. 28, Marcel Dekker, Inc., New York, 1974.
- [9] C.St.J.A. Nash-Williams, Decomposition of finite graphs into forests, Journal London Math. Soc, 39, 12, 1964.
- [10] R. Raghavendran, iFinite associative rings, Compositio Math. 21, 195–229, 1969.
- [11] S.P. Redmond, On zero-divisor graphs of small finite commutative rings, Discrete Math. 307, 1155–1166, 2007.
There are 11 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Mathematical Sciences |
| Journal Section | Mathematics |
| Authors | |
| Publication Date | February 4, 2021 |
| Published in Issue | Year 2021 |