In 1996, A. Sebo[11] raised the following two conjectures concerned with the famous Strong Perfect Graph Conjecture: (1) Suppose that a minimally imperfect graph G has a vertex p incident to 2ω(G) - 2 determined edges and that its complement G has a vertex q incident to 2α(G) - 2 determined edges. (An edge of G is called determined if an ω-clique of G contains both of its endpoints. ) Then G is an odd hole or an odd antihole. (2) Let υ 0 be a vertex of a partitionable graph G. And suppose A,B to be ω-cliques of G so that υ 0 ∈ A rl B. If every ω-clique K containing the vertex υ 0 is contained in A U B, then G is an odd hole or an odd antihole. In this paper, we will prove (1) for a minimally imperfect graph G such that (p,q) is a determined edge of either G or G, and prove (2) for a minimally imperfect graph G such that G is C 4 -free and edges of G are all determined edges.
[1]
László Lovász,et al.
Normal hypergraphs and the perfect graph conjecture
,
1972,
Discret. Math..
[2]
V. Chvátal,et al.
An Equivalent Version of the Strong Perfect Graph Conjecture
,
1984
.
[3]
Leslie E. Trotter,et al.
Graphical properties related to minimal imperfection
,
1979,
Discret. Math..
[4]
L. Lovász.
A Characterization of Perfect Graphs
,
1972
.
[5]
Manfred W. Padberg,et al.
Perfect zero–one matrices
,
1974,
Math. Program..
[6]
Alan Tucker,et al.
Critical perfect graphs and perfect 3-chromatic graphs
,
1977,
J. Comb. Theory, Ser. B.
[7]
András Sebő.
On Critical Edges in Minimal Imperfect Graphs
,
1996
.