sl(n,H)-Current Algebra on S3

Abstract

We introduce three non-trivial 2-cocycles ck, k=0,1,2, on the Lie algebra S3H=Map(S3,H) with the aid of the corresponding basis vector fields on S3, and extend them to 2-cocycles on the Lie algebra S3gl(n,H)=S3H gl(n,C). Then we have the corresponding central extension S3gl(n,H) k (Cak). As a subalgebra of S3H we have the algebra C[φ] of the Laurent polynomial spinors on S3. Then we have a Lie subalgebra gl(n, H)=C[φ] gl(n, C) of S3gl(n,H), as well as its central extension by the 2-cocycles ck and the Euler vector field d: gl=gl(n, H) k(Cak) Cd . The Lie algebra sl(n,H) is defined as a Lie subalgebra of gl(n,H) generated by C[φ] sl(n,C)). We have the corresponding central extension of sl(n,H) by the 2-cocycles ck and the derivation d, which becomes a Lie subalgebra sl of gl. Let h0 be a Cartan subalgebra of sl(n,C) and h=h0 k(Cak) Cd. The root space decomposition of the ad(h)-representation of sl is obtained. The set of roots is =\ m/2 δ + α ; α ∈ 0, m ∈ Z\ \m/2 δ ; m ∈ Z \ . And the root spaces are gm/2 δ+ α= C[φ ;m] gα, for α≠ 0 , gm/2 δ= C[φ ;m] h0, for m ≠ 0, and g0 δ= h, where C[φ ;m] is the subspace with the homogeneous degree m. The Chevalley generators of sl are given.