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JCT
2010
2010
Pancyclicity of Hamiltonian and highly connected graphs
A graph G on n vertices is Hamiltonian if it contains a cycle of length n and pancyclic if it contains cycles of length for all 3 ≤ ≤ n. Write α(G) for the independence number of G, i.e. the size of the largest subset of the vertex set that does not contain an edge, and κ(G) for the (vertex) connectivity, i.e. the size of the smallest subset of the vertex set that can be deleted to obtain a disconnected graph. A celebrated theorem of Chv´atal and Erd˝os says that G is Hamiltonian if κ(G) ≥ α(G). Moreover, Bondy suggested that almost any non-trivial conditions for Hamiltonicity of a graph should also imply pancyclicity. Motivated by this, we prove that if κ(G) ≥ 600α(G) then G is pancyclic. This establishes a conjecture of Jackson and Ordaz up to a constant factor. Moreover, we obtain the more general result that if G is Hamiltonian with minimum degree δ(G) ≥ 600α(G) then G is pancyclic. Improving an old result of Erd˝os, we also show that G is pancyclic if it is H...
Real-time Traffic| Added | 28 Jan 2011 |
| Updated | 28 Jan 2011 |
| Type | Journal |
| Year | 2010 |
| Where | JCT |
| Authors | Peter Keevash, Benny Sudakov |
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