Supersymmetric Vector Multiplets in Non-Adjoint Representations of SO(N)

Abstract

In the conventional formulation of N=1 supersymmetry, a vector multiplet is supposed to be in the adjoint representation of a given gauge group. We present a new formulation with a vector multiplet in the non-adjoint representation of SO(N) gauge group. Our basic algebra is [ TI, TJ ] = fI J K TK, [ TI, Ui ] = - (TI)i j Uj, [ Ui, Uj ] = - (TI)i j TI, where TI are the generators of SO(N), while Ui are the new 'generators' in certain non-adjoint real representation R of SO(N). We use here the word `generator' in the broader sense of the word. Such a representation can be any real representation of SO(N) with the positive definite metric, satisfying (TI)i j = - (TI)j i and (TI)[ i j | (TI)| k ] l 0. The first non-trivial examples are the spinorial 8S and conjugate spinorial 8C representations of SO(8) consistent with supersymmetry. We further couple the system to chiral multiplets, and show that a Higgs mechanism can give positive definite (mass)2 to the new gauge fields for Ui. We show an analogous system working with N=1 supersymmetry in 10D, and thereby N=4 system in 4D interacting with extra multiplets in the representation R. We also perform superspace reformulation as an independent confirmation.