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On Coalition Graphs and Coalition Count of Graphs

Published 26 Nov 2025 in math.CO | (2511.21112v1)

Abstract: Let $G$ be graph with vertex set $V(G)$ and order $n$. A coalition in a graph $G$ consists of two disjoint sets of vertices $V_1$ and $V_2$, neither of which is a dominating set but whose union $V_1 \cup V_2$ is a dominating set. A coalition partition, abbreviated $c$-partition, in a graph $G$ is a vertex partition $π=\left{V_1 , V_2,\dots, V_k\right}$ such that every set $V_i$ of $π$ is either a singleton dominating set, or is not a dominating set but forms a coalition with another set $V_j$ in $π$. The sets $V_i$ and $V_j$ are coalition partners in $G$. The coalition number $C(G)$ equals the maximum order $k$ of a $c$-partition of $G$. For any graph $G$ with a $c$-partition $π=\left{V_1,V_2,\dots,V_k\right}$, the coalition graph $CG(G,π)$ of $G$ is a graph with vertex set $V_1,V_2,\dots, V_k$, corresponding one-to-one with the set $π$, and two vertices $V_i$ and $V_j$ are adjacent in $CG(G,π)$ if and only if the sets $V_i$ and $V_j$ are coalition partners in $π$. In [4], authors proved that for every graph $G$ there exist a graph $H$ and $c$-partition $π$ such that $CG(H,π)\cong G$, and raised the question: Does there exist a graph $H*$ of smaller order $n*$ and size $m*$ with a $c$-partition $π*$ such that $CG(H,π^)\cong G$?. In this paper, we constructed a graph $H*$ of small order and size and a $c$- partition $π*$ such that $CG(H,π^)\cong G$. Recently, Haynes et al.[5] defined the coalition count $c(G)$ of a graph $G$ as the maximum number of different coalition in any $c$-partition of $G$. We characterize all graphs $G$ with $c(G)=1$. Further, imposing some suitable conditions on coalition number, we study the properties of coalition count of graph.

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