Star (graph theory)
| Star | |
|---|---|
The star S7. (Some authors index this as S8.)
|
|
| Vertices | k+1 |
| Edges | k |
| Diameter | minimum of (2, k) |
| Girth | ∞ |
| Chromatic number | minimum of (2, k + 1) |
| Chromatic index | k |
| Properties |
Edge-transitive Tree Unit distance Bipartite |
| Notation | Sk |
In graph theory, a star Sk is the complete bipartite graph K1,k: a tree with one internal node and k leaves (but, no internal nodes and k + 1 leaves when k ≤ 1). Alternatively, some authors define Sk to be the tree of order k with maximum diameter 2; in which case a star of k > 2 has k − 1 leaves.
A star with 3 edges is called a claw.
The star Sk is edge-graceful when k is even and not when k is odd. It is an edge-transitive matchstick graph, and has diameter 2 (when k > 1), girth ∞ (it has no cycles), chromatic index k, and chromatic number 2 (when k > 0). Additionally, the star has large automorphism group, namely, the symmetric group on k letters.
Stars may also be described as the only connected graphs in which at most one vertex has degree greater than one.
Claws are notable in the definition of claw-free graphs, graphs that do not have any claw as an induced subgraph. They are also one of the exceptional cases of the Whitney graph isomorphism theorem: in general, graphs with isomorphic line graphs are themselves isomorphic, with the exception of the claw and the triangle K3.
A star is a special kind of tree. As with any tree, stars may be encoded by a Prüfer sequence; the Prüfer sequence for a star K1,k consists of k − 1 copies of the center vertex.
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