The minimum degree of minimal k-factor-critical claw-free graphs*

Abstract

A graph G of order n is said to be k-factor-critical for integers 1≤ k< n, if the removal of any k vertices results in a graph with a perfect matching. A k-factor-critical graph is minimal if for every edge, the deletion of it results in a graph that is not k-factor-critical. In 1998, O. Favaron and M. Shi conjectured that every minimal k-factor-critical graph has minimum degree k+1. In this paper, we confirm the conjecture for minimal k-factor-critical claw-free graphs. Moreover, we show that every minimal k-factor-critical claw-free graph G has at least k-12k|V(G)| vertices of degree k+1 in the case of (k+1)-connected, yielding further evidence for S. Norine and R. Thomas' conjecture on the minimum degree of minimal bricks when k=2.

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