A Jump of the Saturation Number in Random Graphs?

Abstract

For graphs G and F, the saturation number sat(G,F) is the minimum number of edges in an inclusion-maximal F-free subgraph of G. In 2017, Kor\'andi and Sudakov initiated the study of saturation in random graphs. They showed that for constant p∈ (0,1), whp sat(G(n,p),Ks)=(1+o(1))n11-pn. We show that for every graph F and every constant p∈ (0,1), whp sat(G(n,p), F)=O(n n). Furthermore, if every edge of F belongs to a triangle, then the above is the right asymptotic order of magnitude, that is, whp sat(G(n,p),F)=(n n). We further show that for a large family of graphs F with an edge that does not belong to a triangle, which includes all the bipartite graphs, for every F∈ F and constant p∈(0,1), whp sat(G(n,p),F)=O(n). We conjecture that this sharp transition from O(n) to (n n) depends only on this property, that is, that for any graph F with at least one edge that does not belong to a triangle, whp sat(G(n,p),F)=O(n). We further generalise the result of Kor\'andi and Sudakov, and show that for a more general family of graphs F', including all complete graphs Ks and all complete multipartite graphs of the form K1,1,s3,…, s, for every F∈ F' and every constant p∈(0,1), whp sat(G(n,p),F)=(1+o(1))n11-pn. Finally, we show that for every complete multipartite graph Ks1, s2, …, s and every p∈ [12,1), sat(G(n,p),Ks1,s2,…,s)=(1+o(1))n11-pn.