Counting spanning trees of (1, N)-periodic graphs

Abstract

Let N≥ 2 be an integer, a (1, N)-periodic graph G is a periodic graph whose vertices can be partitioned into two sets V1=\vσ(v)=v\ and V2=\vσi(v)≠ v\ for any\ 1<i<N\, where σ is an automorphism with order N of G. The subgraph of G induced by V1 is called a fixed subgraph. Yan and Zhang [Enumeration of spanning trees of graphs with rotational symmetry, J. Comb. Theory Ser. A, 118(2011): 1270-1290] studied the enumeration of spanning trees of a special type of (1, N)-periodic graphs with V1= for any non-trivial automorphism with order N. In this paper, we obtain a concise formula for the number of spanning trees of (1, N)-periodic graphs. Our result can reduce to Yan and Zhang's when V1 is empty. As applications, we give a new closed formula for the spanning tree generating function of cobweb lattices, and obtain formulae for the number of spanning trees of circulant graphs Cn(s1,s2,…,sk) and K2 Cn(s1,s2,…,sk).