Packing tree factors in random and pseudo-random graphs
Combinatorics
2014-04-02 v2
Abstract
For a fixed graph H with t vertices, an H-factor of a graph G with n vertices, where t divides n, is a collection of vertex disjoint (not necessarily induced) copies of H in G covering all vertices of G. We prove that for a fixed tree T on t vertices and \epsilon > 0, the random graph G_{n,p}, with n a multiple of t, with high probability contains a family of edge-disjoint T-factors covering all but an \epsilon-fraction of its edges, as long as \epsilon^4 n p >> (log n)^2. Assuming stronger divisibility conditions, the edge probability can be taken down to p > (C log n)/n. A similar packing result is proved also for pseudo-random graphs, defined in terms of their degrees and co-degrees.
Keywords
Cite
@article{arxiv.1304.2429,
title = {Packing tree factors in random and pseudo-random graphs},
author = {Deepak Bal and Alan Frieze and Michael Krivelevich and Po-Shen Loh},
journal= {arXiv preprint arXiv:1304.2429},
year = {2014}
}
Comments
12 pages