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Vladikavkazskii Matematicheskii Zhurnal, 2021, Volume 23, Number 2, Pages 51–64
DOI: https://doi.org/10.46698/x5522-9720-4842-z
(Mi vmj763)
 

Color energy of some cluster graphs

S. D'Souza, K. P. Girija, H. J. Gowtham, P. G. Bhat

Department of Mathematics, Manipal Institute of Technology, Manipal Academy of Higher Education, Manipal-576104 , Karnataka, India
References:
Abstract: Let $G$ be a simple connected graph. The energy of a graph $G$ is defined as sum of the absolute eigenvalues of an adjacency matrix of the graph $G$. It represents a proper generalization of a formula valid for the total $\pi$-electron energy of a conjugated hydrocarbon as calculated by the Huckel molecular orbital (HMO) method in quantum chemistry. A coloring of a graph $G$ is a coloring of its vertices such that no two adjacent vertices share the same color. The minimum number of colors needed for the coloring of a graph $G$ is called the chromatic number of $G$ and is denoted by $\chi(G)$. The color energy of a graph $G$ is defined as the sum of absolute values of the color eigenvalues of $G$. The graphs with large number of edges are referred as cluster graphs. Cluster graphs are graphs obtained from complete graphs by deleting few edges according to some criteria. It can be obtained on deleting some edges incident on a vertex, deletion of independent edges/triangles/cliques/path P3 etc. Bipartite cluster graphs are obtained by deleting few edges from complete bipartite graphs according to some rule. In this paper, the color energy of cluster graphs and bipartite cluster graphs are studied.
Key words: color adjacency matrix, color eigenvalues, color energy.
Document Type: Article
UDC: 519.17
MSC: 05C15, 05C50
Language: English
Citation: S. D'Souza, K. P. Girija, H. J. Gowtham, P. G. Bhat, “Color energy of some cluster graphs”, Vladikavkaz. Mat. Zh., 23:2 (2021), 51–64
Citation in format AMSBIB
\Bibitem{DsoGirGow21}
\by S.~D'Souza, K.~P.~Girija, H.~J.~Gowtham, P.~G.~Bhat
\paper Color energy of some cluster graphs
\jour Vladikavkaz. Mat. Zh.
\yr 2021
\vol 23
\issue 2
\pages 51--64
\mathnet{http://mi.mathnet.ru/vmj763}
\crossref{https://doi.org/10.46698/x5522-9720-4842-z}
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