Gauge-invariant Lagrangians for mixed-antisymmetric higher spin fields

Abstract

Lagrangian descriptions of irreducible and reducible integer higher-spin representations of the Poincare group subject to a Young tableaux Y[s1,s2] with two columns are constructed within a metric-like formulation in a d-dimensional flat space-time on the basis of a BRST approach extending the results of [arXiv:1412.0200[hep-th]]. A Lorentz-invariant resolution of the BRST complex within both the constrained and unconstrained BRST formulations produces a gauge-invariant Lagrangian entirely in terms of the initial tensor field [μ]s1, [μ]s2 subject to Y[s1,s2] with an additional tower of gauge parameters realizing the (s1-1)-th stage of reducibility with a specific dependence on the value (s1-s2)=0,1,...,s1. Minimal BRST--BV action is suggested, being proper solution to the master equation in the minimal sector and providing objects appropriate to construct interacting Lagrangian formulations with mixed-antisymmetric fields in a general framework.