Litcius/Paper detail

Tensor non-Gaussianity in chiral scalar-tensor theories of gravity

Nicola Bartolo, Luca Caloni, Giorgio Orlando, Angelo Ricciardone

2021Journal of Cosmology and Astroparticle Physics43 citationsDOIOpen Access PDF

Abstract

Abstract Violation of parity symmetry in the gravitational sector, which manifests into unequal left and right circular polarization states of primordial gravitational waves, represents a way to test high-energy modifications to general relativity. In this paper we study inflation within recently proposed chiral scalar-tensor theories of gravity, that extend Chern-Simons gravity by including parity-violating operators containing first and second derivatives of the non-minimally coupled scalar (inflaton) field. Given the degeneracy between different parity-violating theories at the level of the power spectrum statistics, we make a detailed analysis of the parity violation on primordial tensor non-Gaussianity. We show, with an explicit computation, that no new contributions arise in the graviton bispectra if the couplings in the new operators are constant in a pure de Sitter phase. On the other hand, if the coupling functions are time-dependent during inflation, the tensor bispectra acquire non-vanishing contributions from the parity-breaking operators even in the exact de Sitter limit, with maximal signal in the squeezed and equilateral configurations. We also comment on the consistency relation of the three-point function of tensor modes in this class of models and discuss prospects of detecting parity-breaking signatures through Cosmic Microwave Background B-mode bispectra.

Topics & Concepts

PhysicsInflatonGravitonTheoretical physicsGravitational waveNon-GaussianityParity (physics)General relativityDe Sitter universeMathematical physicsCosmic microwave backgroundGravitationInflation (cosmology)Quantum mechanicsUniverseAnisotropyCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsPulsars and Gravitational Waves Research