Ela on the Maximum Positive Semi-definite Nullity and the Cycle Matroid of Graphs∗
نویسنده
چکیده
Let G = (V, E) be a graph with V = {1, 2, . . . , n}, in which we allow parallel edges but no loops, and let S+(G) be the set of all positive semi-definite n × n matrices A = [ai,j ] with ai,j = 0 if i = j and i and j are non-adjacent, ai,j = 0 if i = j and i and j are connected by exactly one edge, and ai,j ∈ R if i = j or i and j are connected by parallel edges. The maximum positive semi-definite nullity of G, denoted by M+(G), is the maximum nullity attained by any matrix A ∈ S+(G). A k-separation of G is a pair of subgraphs (G1, G2) such that V (G1) ∪ V (G2) = V , E(G1) ∪ E(G2) = E, E(G1) ∩ E(G2) = ∅ and |V (G1) ∩ V (G2)| = k. When G has a k-separation (G1, G2) with k ≤ 2, we give a formula for the maximum positive semi-definite nullity of G in terms of G1, G2, and in case of k = 2, also two other specified graphs. For a graph G, let cG denote the number of components in G. As a corollary of the result on k-separations with k ≤ 2, we obtain that M+(G) − cG = M+(G′) − cG′ for graphs G and G′ that have isomorphic cycle matroids.
منابع مشابه
On the maximum positive semi-definite nullity and the cycle matroid of graphs
Let G = (V, E) be a graph with V = {1, 2, . . . , n}, in which we allow parallel edges but no loops, and let S+(G) be the set of all positive semi-definite n × n matrices A = [ai,j ] with ai,j = 0 if i = j and i and j are non-adjacent, ai,j = 0 if i = j and i and j are connected by exactly one edge, and ai,j ∈ R if i = j or i and j are connected by parallel edges. The maximum positive semi-defi...
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