Large subgraphs without short cycles

Abstract

We study two extremal problems about subgraphs excluding a family of graphs. i) Among all graphs with m edges, what is the smallest size f(m,) of a largest --free subgraph? ii) Among all graphs with minimum degree δ and maximum degree , what is the smallest minimum degree h(δ,,) of a spanning --free subgraph with largest minimum degree? These questions are easy to answer for families not containing any bipartite graph. We study the case where is composed of all even cycles of length at most 2r, r≥ 2. In this case, we give bounds on f(m,) and h(δ,,) that are essentially asymptotically tight up to a logarithmic factor. In particular for every graph G, we show the existence of subgraphs with arbitrarily high girth, and with either many edges or large minimum degree. These subgraphs are created using probabilistic embeddings of a graph into extremal graphs.