A local action for fermionic unconstrained higher spin gauge fields in (A)dS space

Abstract

The local free action principle for bosonic unconstrained higher spin gauge fields in d-dimensional (A)dSd spacetime has been already established by Segal. However, later on, Schuster and Toro, in 4-dimensional flat spacetime, extracted such an action from their bosonic continuous spin gauge theory, when the continuous spin parameter vanishes. On the other hand, similar to the Schuster-Toro's action, we found the fermionic continuous spin gauge theory in 4-dimensional flat spacetime. Thus it is noteworthy to take out its fermionic higher spin formulation in a limit, and generalize it to d-dimensional (A)dSd spacetime. Therefore, in this paper, we will present a similar action principle \`a la Segal for fermions in d-dimensional (A)dSd spacetime. Moreover, at the level of equations of motion, we will demonstrate how the Fronsdal and the Fang-Fronsdal equations in d-dimensional (A)dSd spacetime are related, respectively, to the Euler-Lagrange equations of the bosonic and fermionic higher spin actions mentioned above.