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ABSTRACT
Given an idempotent element e of a commutative ring R, define the idempotent-divisor graph Γe(R) of R associated with e to be the (undirected) graph with vertex-set V(Γe(R)) = {a∈R | there exists b∈R with ab = e} such that distinct a,b∈V(Γe(R)) are adjacent if and only if ab = e. In this paper, the interplay between the algebraic properties of R and the graph-theoretic structure of Γe(R) is investigated. For example, it is shown that if Re is a Boolean ring then Γe(R) is connected, and if R has identity then Γe(R) is finite if and only if R(1−e) and U(R) are finite, where U(R) is the group of units of R. Furthermore, if e∈R and Γe(T(R)) is connected then , where T(R) is the total quotient ring of R. Emphasis is given to linking the structure of Γe(R) with that of zero-divisor graphs (i.e., idempotent-divisor graphs associated with 0).
2010 MATHEMATICS SUBJECT CLASSIFICATION:
Acknowledgments
Part of the research presented in this article is the result of participation by the first author (C.F. Kimball) in a special topics course on commutative rings during Spring, 2016, and an independent study during the 2016–2017 academic year given at Lindsey Wilson College by the second author (J.D. LaGrange). The authors wish to express their gratitude to Amanda K. Gerald for her contributions to several fruitful discussions which helped initiate the some of the investigations in this article.