A generalization of Sch\"onemann's theorem via a graph theoretic method

Abstract

Recently, Grynkiewicz et al. [ Israel J. Math. 193 (2013), 359--398], using tools from additive combinatorics and group theory, proved necessary and sufficient conditions under which the linear congruence a1x1+·s +akxk b n, where a1,…,ak,b,n (n≥ 1) are arbitrary integers, has a solution x1,…,xk ∈ nk with all xi distinct. So, it would be an interesting problem to give an explicit formula for the number of such solutions. Quite surprisingly, this problem was first considered, in a special case, by Sch\"onemann almost two centuries ago(!) but his result seems to have been forgotten. Sch\"onemann [ J. Reine Angew. Math. 1839 (1839), 231--243] proved an explicit formula for the number of such solutions when b=0, n=p a prime, and Σi=1k ai 0 p but Σi ∈ I ai 0 p for all = I 1, …, k. In this paper, we generalize Sch\"onemann's theorem using a result on the number of solutions of linear congruences due to D. N. Lehmer and also a result on graph enumeration. This seems to be a rather uncommon method in the area; besides, our proof technique or its modifications may be useful for dealing with other cases of this problem (or even the general case) or other relevant problems.