On the threshold Ramsey multiplicity conjectures for paths and even cycles

Abstract

The Ramsey number r(H) of a graph H is the minimum positive integer n such that every red/blue edge-coloring of the complete graph Kn on n vertices contains a monochromatic copy of H. The threshold Ramsey multiplicity m(H) of H is the minimum number of monochromatic copies of H over all red/blue edge-colorings of Kr(H). Let Pt and Ct be a path and a cycle on t vertices, respectively. In this paper, by using combinatorial and local random construction, we show that m(C2t) t-γ+o(1)(2t-1)!2, m(P2t+1) t-γ+o(1)t2(2t)!, and m(P2t)≤ (78+o(1))(2t)!2, for sufficiently large t, where γ=1/(1+2). These results disprove two conjectures on the threshold Ramsey multiplicity for even cycles and paths, due to Conlon, Fox, Sudakov, and Wei.