- Source: Diamond graph
In the mathematical field of graph theory, the diamond graph is a planar, undirected graph with 4 vertices and 5 edges. It consists of a complete graph
K
4
{\displaystyle K_{4}}
minus one edge.
The diamond graph has radius 1, diameter 2, girth 3, chromatic number 3 and chromatic index 3. It is also a 2-vertex-connected and a 2-edge-connected, graceful, Hamiltonian graph.
Diamond-free graphs and forbidden minor
A graph is diamond-free if it has no diamond as an induced subgraph. The triangle-free graphs are diamond-free graphs, since every diamond contains a triangle. The diamond-free graphs are locally clustered: that is, they are the graphs in which every neighborhood is a cluster graph. Alternatively, a graph is diamond-free if and only if every pair of maximal cliques in the graph shares at most one vertex.
The family of graphs in which each connected component is a cactus graph is downwardly closed under graph minor operations. This graph family may be characterized by a single forbidden minor. This minor is the diamond graph.
If both the butterfly graph and the diamond graph are forbidden minors, the family of graphs obtained is the family of pseudoforests.
Algebraic properties
The full automorphism group of the diamond graph is a group of order 4 isomorphic to the Klein four-group, the direct product of the cyclic group
Z
/
2
Z
{\displaystyle \mathbb {Z} /2\mathbb {Z} }
with itself.
The characteristic polynomial of the diamond graph is
x
(
x
+
1
)
(
x
2
−
x
−
4
)
{\displaystyle x(x+1)(x^{2}-x-4)}
. It is the only graph with this characteristic polynomial, making it a graph determined by its spectrum.
See also
Vámos matroid
References
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- Diamond graph
- Line graph
- Glossary of graph theory
- Diamond cubic
- Forbidden graph characterization
- List of graphs
- Cactus graph
- Klein four-group
- Kirchhoff's theorem
- Block graph