Go to DBLP homepageCyclability, Connectivity and Circumference
Abstract: In a graph G, a subset of vertices \(S \subseteq V(G)\) is said to be cyclable if there is a cycle containing the vertices in some order. G is said to be k-cyclable if any subset of \(k \ge 2\) vertices is cyclable. If any k ordered vertices are present in a common cycle in that order, then the graph is said to be k-ordered. We show that when \(k \le \sqrt{n+3}\), k-cyclable graphs also have circumference \(c(G) \ge 2k\), and that this is best possible. Furthermore when \(k \le \frac{3n}{4} -1\), \(c(G) \ge k+2\), and for k-ordered graphs we show \(c(G) \ge \min \{n,2k\}\). We also generalize a result by Byer et al. [4] on the maximum number of edges in nonhamiltonian k-connected graphs, and show that if G is a k-connected graph of order \(n \ge 2(k^2+k)\) with \(|E(G)| > \left( {\begin{array}{c}n-k\\ 2\end{array}}\right) + k^2\), then the graph is hamiltonian, and moreover the extremal graphs are unique.
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