On distance, geodesic and arc transitivity of graphs

Abstract

We compare three transitivity properties of finite graphs, namely, for a positive integer s, s-distance transitivity, s-geodesic transitivity and s-arc transitivity. It is known that if a finite graph is s-arc transitive but not (s+1)-arc transitive then s≤ 7 and s≠ 6. We show that there are infinitely many geodesic transitive graphs with this property for each of these values of s, and that these graphs can have arbitrarily large diameter if and only if 1≤ s≤ 3. Moreover, for a prime p we prove that there exists a graph of valency p that is 2-geodesic transitive but not 2-arc transitive if and only if p 1 4, and for each such prime there is a unique graph with this property: it is an antipodal double cover of the complete graph Kp+1 and is geodesic transitive with automorphism group PSL(2,p)× Z2.