Polarization tensor in de Sitter gauge gravity

Abstract

The gauge theory of the de Sitter group, SO(1,4), in the ambient space formalism has been considered in this article. This method is essential to constructing the de Sitter super-conformal gravity and Quantum gravity. 10 gauge vector fields are needed, corresponding to 10 generators of the de Sitter group. Using the gauge-invariant Lagrangian, the field equation of these vector fields has been obtained. The gauge vector field solutions are recalled. Then, the spin-2 gauge potentials are constructed from the gauge vector field. There are two possibilities for presenting this tensor field: rank-2 symmetric and mixed symmetry rank-3 tensor fields. To preserve the conformal transformation, a spin-2 field must be represented by a mixed symmetry rank-3 tensor field, Kαβγ. This tensor field has been rewritten using a generalized polarization tensor field and a de Sitter plane wave. This generalized polarization tensor field has been calculated as a combination of vector polarization, Eα, and tensor polarization of rank-2, Eαβ, which can be used in the gravitational wave consideration. For the construction of this polarization tensor, the arbitrary constant vector fields appear. We fix it so that, in the limit, H=0, one obtains the polarization tensor in Minkowski space-time. It has been shown that under some simple conditions, the spin-2 mixed symmetry rank-3 tensor field can be simultaneously transformed by the unitary irreducible representation of de Sitter and conformal groups, SO(2,4).