The Equitable Basis for sl2

Abstract

This article contains an investigation of the equitable basis for the Lie algebra sl2. Denoting this basis by x,y,z, we have [x,y] = 2x + 2y, [y,z] = 2y + 2z, [z, x] = 2z + 2x. One focus of our study is the group of automorphisms G generated by exp(ad x*), exp(ad y*), exp(ad z*), where x*,y*,z* is the basis for sl2 dual to x,y,z with respect to the trace form (u,v) = tr(uv). We show that G is isomorphic to the modular group PSL2(Z). Another focus of our investigation is the lattice L=Zx+Zy+Zz. We prove that the orbit G(x) equals u in L |(u,u)=2. We determine the precise relationship between (i) the group G, (ii) the group of automorphisms for sl2 that preserve L, (iii) the group of automorphisms and antiautomorphisms for sl2 that preserve L, and (iv) the group of isometries for (,) that preserve L. We obtain analogous results for the lattice L* =Zx*+Zy*+Zz*. Relative to the equitable basis, the matrix of the trace form is a Cartan matrix of hyperbolic type; consequently,we identify the equitable basis with the set of simple roots of the corresponding Kac-Moody Lie algebra g. Then L is the root lattice for g and 1/2L* is the weight lattice, and G(x) coincides with the set of real roots for g. Using L, L*, and G, we give several descriptions of the isotropic roots for g and show that each isotropic root has multiplicity 1. We describe the finite-dimensional sl2-modules from the point of view of the equitable basis. In the final section, we establish a connection between the Weyl group orbit of the fundamental weights of g and Pythagorean triples.