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Paper detail

Powers of Hamiltonian cycles in randomly augmented graphs

We study the existence of powers of Hamiltonian cycles in graphs with large minimum degree to which some additional edges have been added in a random manner. It follows from the theorems of Dirac and of Komlós, Sarközy, and Szemerédi that for every $k\geq 1$ and sufficiently large $n$ already the minimum degree $δ(G)\ge\tfrac{k}{k+1}n$ for an $n$-vertex graph $G$ alone suffices to ensure the existence of a $k$-th power of a Hamiltonian cycle. Here we show that under essentially the same degree assumption the addition of just $O(n)$ random edges ensures the presence of the $(k+1)$-st power of a Hamiltonian cycle with probability close to one.

preprint2019arXivOpen access
Andrzej DudekChristian ReiherAndrzej RucińskiMathias Schacht
math.CO
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Andrzej DudekChristian ReiherAndrzej RucińskiMathias Schacht

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