The N=4 Coset Model and the Higher Spin Algebra

Abstract

By computing the operator product expansions between the first two N=4 higher spin multiplets in the unitary coset model, the (anti)commutators of higher spin currents are obtained under the large (N,k) 't Hooft-like limit. The free field realization with complex bosons and fermions is presented. The (anti)commutators for generic spins s1 and s2 with manifest SO(4) symmetry at vanishing 't Hooft-like coupling constant are completely determined. The structure constants can be written in terms of the ones in the N=2 W∞ algebra found by Bergshoeff, Pope, Romans, Sezgin and Shen previously, in addition to the spin-dependent fractional coefficients and two SO(4) invariant tensors. We also describe the N=4 higher spin generators, by using the above coset construction results, for general super spin s in terms of oscillators in the matrix generalization of AdS3 Vasiliev higher spin theory at nonzero 't Hooft-like coupling constant. We obtain the N=4 higher spin algebra for low spins and present how to determine the structure constants, which depend on the higher spin algebra parameter, in general, for fixed spins s1 and s2.