The Lie algebra sl4( C) and the hypercubes

Abstract

We describe a relationship between the Lie algebra sl4( C) and the hypercube graphs. Consider the C-algebra P of polynomials in four commuting variables. We turn P into an sl4( C)-module on which each element of sl4( C) acts as a derivation. Then P becomes a direct sum of irreducible sl4( C)-modules P = ΣN∈ N PN, where PN is the Nth homogeneous component of P. For N∈ N we construct some additional sl4( C)-modules Fix(G) and T. For these modules the underlying vector space is described as follows. Let X denote the vertex set of the hypercube H(N,2), and let V denote the C-vector space with basis X. For the automorphism group G of H(N,2), the action of G on X turns V into a G-module. The vector space V 3 = V V V becomes a G-module such that g(u v w)= g(u) g(v) g(w) for g∈ G and u,v,w ∈ V. The subspace Fix(G) of V 3 consists of the vectors in V 3 that are fixed by every element in G. Pick ∈ X. The corresponding subconstituent algebra T of H(N,2) is the subalgebra of End(V) generated by the adjacency map A of H(N,2) and the dual adjacency map A* of H(N,2) with respect to . In our main results, we turn Fix(G) and T into sl4( C)-modules, and display sl4( C)-module isomorphisms PN Fix(G) T. We describe the sl4( C)-modules PN, Fix(G), T from multiple points of view.