Explicit Baker-Campbell-Hausdorff formulae for some specific Lie algebras

Abstract

In a previous article, [arXiv:1501.02506, JPhysA 48 (2015) 225207], we demonstrated that whenever [X,Y] = u X + vY + cI the Baker-Campbell-Hausdorff formula reduces to the tractable closed-form expression \[ Z(X,Y)=( eX eY ) = X+Y+ f(u,v) \; [X,Y], \] where f(u,v)=f(v,u) is explicitly given by \[ f(u,v) = (u-v)eu+v-(ueu-vev) u v (eu - ev) = (u-v)-(ue-v-ve-u) u v (e-v - e-u). \] This is much more general than the results usually presented for either the Heisenberg commutator [P,Q]=-i I, or the creation-destruction commutator [a,a]=I. In the current article we shall further generalize and extend this result, primarily by relaxing the input assumptions. We shall work with the structure constants fabc of the Lie algebra, (defined by [Ta,Tb] = fabc \; Tc), and identify suitable constraints one can place on the structure constants to make the Baker--Campbell--Hausdorff formula tractable. We shall also develop related results using the commutator sub-algebra [g,g] of the relevant Lie algebra g. Under suitable conditions, and taking LA B = [A,B] as usual, we shall demonstrate that \[ ( eX eY ) = X + Y + I e-LX - e+LY ( I-e-LX LX + I-e+LY LY ) [X,Y]. \]