Graphs with induced-saturation number zero

Given graphs \(G\) and \(H\), \(G\) is \(H\)-saturated if \(H\) is not a subgraph of \(G\), but for all \(e \notin E(G)\), \(H\) appears as a subgraph of \(G + e\). While for every \(n \ge |V(H)|\), there exists an \(n\)-vertex graph that is \(H\)-saturated, the same does not hold for induced subgra...

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Bibliographic Details
Published in:arXiv.org 2015-03
Main Authors: Behrens, Sarah, Erbes, Catherine, Santana, Michael, Yager, Derrek, Yeager, Elyse
Format: Article
Language:English
Subjects:
Apexes
Graph theory
Graphs
Saturation
Online Access:Get full text
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Summary:Given graphs \(G\) and \(H\), \(G\) is \(H\)-saturated if \(H\) is not a subgraph of \(G\), but for all \(e \notin E(G)\), \(H\) appears as a subgraph of \(G + e\). While for every \(n \ge |V(H)|\), there exists an \(n\)-vertex graph that is \(H\)-saturated, the same does not hold for induced subgraphs. That is, there exist graphs \(H\) and values of \(n \ge |V(H)|\) for which every \(n\)-vertex graph \(G\) either contains \(H\) as an induced subgraph, or there exists \(e \notin E(G)\) such that \(G + e\) does not contain \(H\) as an induced subgraph. To circumvent this, Martin and Smith make use of trigraphs when introducing the concept of induced saturation and the induced saturation number of graphs. This allows for edges that can be included or excluded when searching for an induced copy of H, and the induced saturation number is the minimum number of such edges that are required. In this paper, we show that the induced saturation number of many common graphs is zero. Consequently, this yields graphs, instead of trigraphs, that are H-induced-saturated. We introduce a new parameter for such graphs, indsat*(n;H), which is the minimum number of edges in an H-induced-saturated graph on n vertices. We provide bounds on indsat*(n;H) for many graphs. In particular, we determine indsat*(n;paw) completely, and indsat*(n;\(K_{1,3}\)) for infinitely many n.
ISSN:2331-8422