%0 Journal Article
%T Total perfect codes in graphs realized by commutative rings
%J Transactions on Combinatorics
%I University of Isfahan
%Z 2251-8657
%A Raja, Rameez
%D 2022
%\ 12/01/2022
%V 11
%N 4
%P 295-307
%! Total perfect codes in graphs realized by commutative rings
%K ring
%K zero-divisor
%K Zero-divisor graph
%K perfect code
%K total perfect code
%R 10.22108/toc.2021.122946.1727
%X Let $R$ be a commutative ring with unity not equal to zero and let $\Gamma(R)$ be a zero-divisor graph realized by $R$. For a simple, undirected, connected graph $G = (V, E)$, a {\it total perfect code} denoted by $C(G)$ in $G$ is a subset $C(G) \subseteq V(G)$ such that $|N(v) \cap C(G)| = 1$ for all $v \in V(G)$, where $N(v)$ denotes the open neighbourhood of a vertex $v$ in $G$. In this paper, we study total perfect codes in graphs which are realized as zero-divisor graphs. We show a zero-divisor graph realized by a local commutative ring with unity admits a total perfect code if and only if the graph has degree one vertices. We also show that if $\Gamma(R)$ is a regular graph on $|Z^*(R)|$ number of vertices, then $R$ is a reduced ring and $|Z^*(R)| \equiv 0 (mod ~2)$, where $Z^*(R)$ is a set of non-zero zero-divisors of $R$. We provide a characterization for all commutative rings with unity of which the realized zero-divisor graphs admit total perfect codes. Finally, we determine the cardinality of a total perfect code in $\Gamma(R)$ and discuss the significance of the study of total perfect codes in graphs realized by commutative rings with unity.
%U https://toc.ui.ac.ir/article_26081_b310028bfbd7cbc36e3ad3df8708b1fd.pdf