Counting racks of order n

Abstract

A rack on [n] can be thought of as a set of maps (fx)x ∈ [n], where each fx is a permutation of [n] such that f(x)fy = fy-1fxfy for all x and y. In 2013, Blackburn showed that the number of isomorphism classes of racks on [n] is at least 2(1/4 - o(1))n2 and at most 2(c + o(1))n2, where c ≈ 1.557; in this paper we improve the upper bound to 2(1/4 + o(1))n2, matching the lower bound. The proof involves considering racks as loopless, edge-coloured directed multigraphs on [n], where we have an edge of colour y between x and z if and only if (x)fy = z, and applying various combinatorial tools.