Algebraic Properties of Clique Complexes of Line Graphs

Abstract

Let H be a simple undirected graph and G=L(H) be its line graph. Assume that (G) denotes the clique complex of G. We show that (G) is sequentially Cohen-Macaulay if and only if it is shellable if and only if it is vertex decomposable. Moreover if (G) is pure, we prove that these conditions are also equivalent to being strongly connected. Furthermore, we state a complete characterizations of those H for which (G) is Cohen-Macaulay, sequentially Cohen-Macaulay or Gorenstein. We use these characterizations to present linear time algorithms which take a graph G, check whether G is a line graph and if yes, decide if (G) is Cohen-Macaulay or sequentially Cohen-Macaulay or Gorenstein.