Different classes of binary necklaces and a combinatorial method for their enumerations (1804.00992v1)

Abstract: In this paper we investigate enumeration of some classes of $n$-character strings and binary necklaces. Recall that binary necklaces are necklaces in two colors with length $n$. We prove three results (Theorems 1, 1' and 2) concerning the numbers of three classes of $j$-character strings (closely related to some classes of binary necklaces or Lyndon words). Using these results, we deduce Moreau's necklace-counting function for binary aperiodic necklaces of length $k$ \cite{mo} (Theorem 3), and we prove the binary case of MacMahon's formula from 1892 \cite{ma} (also called Witt's formula) for the number of necklaces (Theorem 4). Notice that we give proofs of Theorems 3 and 4 without use of Burnside's lemma and P\'olya enumeration theorem. Namely, the methods used in our proofs of auxiliary and main results presented in Sections 3 and 4 are combinatorial in spirit and they are based on counting method and some facts from elementary number theory.