Combinatorial Theory

This paper continues the study of two numbers that are associated with Lie groups. The first number is \(N(G,m)\), the number of conjugacy classes of elements in \(G\) whose order divides \(m\). The second number is \(N(G,m,s)\), the number of conjugacy classes of elements in \(G\) whose order divides \(m\) and which have \(s\) distinct eigenvalues, where we view \(G\) as a matrix group in its smallest-degree faithful representation. We describe systematic algorithms for computing both numbers for \(G\) a connected and simply-connected exceptional Lie group. We also provide explicit results for all of \(N(G,m)\), \(N(G_2,m,s)\), and \(N(F_4,m,s)\). The numbers \(N(G,m,s)\) were previously known only for the classical Lie groups; our results for \(N(G,m)\) agree with those already in the literature but are obtained differently.

Mathematics Subject Classifications: 05A15, 05E16, 22E40, 22E10, 22E15

Keywords: Lie groups, conjugacy classes, element of finite order, Burnside's lemma