Ladder graph

Ladder graph
The ladder graph L₈.
Vertices	2n
Edges	n+2(n-1)
Chromatic number	2
Chromatic index	3 for n>2 2 for n=2 1 for n=1
Properties	Unit distance Hamiltonian Planar Bipartite
Notation	L_n

In the mathematical field of graph theory, the ladder graph L_n is a planar undirected graph with 2n vertices and n+2(n-1) edges.^[1]

The ladder graph can be obtained as the Cartesian product of two path graphs, one of which has only one edge: L_n,1 = P_n × P₁.^[2]^[3] Adding two more crossed edges connecting the four degree-two vertices of a ladder graph produces a cubic graph, the Möbius ladder.

By construction, the ladder graph L_n is isomorphic to the grid graph G_2,n and looks like a ladder with n rungs. It is Hamiltonian with girth 4 (if n>1) and chromatic index 3 (if n>2).

The chromatic number of the ladder graph is 2 and its chromatic polynomial is $(x-1)x(x^2-3x%2B3)^{(n-1)}$ .

Gallery

References

^ Weisstein, Eric W., "Ladder Graph" from MathWorld.
^ Hosoya, H. and Harary, F. "On the Matching Properties of Three Fence Graphs." J. Math. Chem. 12, 211-218, 1993.
^ Noy, M. and Ribó, A. "Recursively Constructible Families of Graphs." Adv. Appl. Math. 32, 350-363, 2004.