Graphs, Disjoint Matchings and Some Inequalities

Abstract

For k ≥ 1 and a graph G let k(G) denote the size of a maximum k-edge-colorable subgraph of G. Mkrtchyan, Petrosyan and Vardanyan proved that 2(G)≥ 45· |V(G)|, 3(G)≥ 76· |V(G)| for any cubic graph G ~samvel:2010. They were also able to show that if G is a cubic graph, then 2(G)+3(G)≥ 2· |V(G)| ~samvel:2014 and 2(G) ≤ |V(G)| + 2· 3(G)4 ~samvel:2010. In the first part of the present work, we show that the last two inequalities imply the first two of them. Moreover, we show that 2(G) ≥ α · |V(G)| + 2· 3(G)4 , where α=1617, if G is a cubic graph, α=2021, if G is a cubic graph containing a perfect matching, α=4445, if G is a bridgeless cubic graph. We also investigate the parameters 2(G) and 3(G) in the class of claw-free cubic graphs. We improve the lower bounds for 2(G) and 3(G) for claw-free bridgeless cubic graphs to 2(G)≥ 3536· |V(G)| (n ≥ 48), 3(G)≥ 4345· |E(G)|. On the basis of these inequalities we are able to improve the coefficient α for bridgeless claw-free cubic graphs. In the second part of the work, we prove lower bounds for k(G) in terms of k-1(G)+k+1(G)2 for k≥ 2 and graphs G containing at most 1 cycle. We also present the corresponding conjectures for bipartite and nearly bipartite graphs.