Massless chiral fields in six dimensions
Abstract
Massless chiral fields of arbitrary spin in six spacetime dimensions, also known as higher spin singletons, admit a simple formulation in terms of SU*(4) SL(2,H) tensors. We show that, paralleling the four-dimensional case, these fields can be described using a 0-form and a gauge 2-form, taking values in totally symmetric tensors of SU*(4). We then exhibit an example of interacting theory that couples a tower of singletons of all integer spin to a background of g-valued higher spin fields, for g an arbitrary Lie algebra equipped with an invariant symmetric bilinear form. Finally, we discuss the formulation of these models in arbitrary even dimensions, as well as their partially-massless counterpart.
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