Half graph


In graph theory, a branch of mathematics, a half graph is a special type of bipartite graph. These graphs are called the half graphs because they have approximately half of the edges of a complete bipartite graph on the same vertices. The name was given to these graphs by Paul Erdős and András Hajnal.

Definition

To define the half graph on vertices and, connect to by an edge whenever.
The same concept can also be defined in the same way for infinite graphs over two copies of any ordered set of vertices.
The half graph over the natural numbers
has the property that each vertex has finite degree, at most. The vertices on the other side of the bipartition have infinite degree.

Irregularity

One application for the half graph occurs in the Szemerédi regularity lemma,
which states that the vertices of any graph can be partitioned into a constant number of subsets of equal size, such that most pairs of subsets are regular
. If the half graph is partitioned in this way into subsets, the number of irregular pairs will be at least proportional to. Therefore, it is not possible to strengthen the regularity lemma to show the existence of a partition for which all pairs are regular.

Matching

The half graph has a unique perfect matching. This is straightforward to see by induction: must be matched to its only neighbor,, and the remaining vertices form another half graph. More strongly, every bipartite graph with a unique perfect matching is a subgraph of a half graph.

In graphs of uncountable chromatic number

If the chromatic number of a graph is uncountable,
then the graph necessarily contains as a subgraph a half graph on the natural numbers. This half graph, in turn, contains every complete bipartite graph in which one side of the bipartition is finite and the other side is countably infinite.