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Propagating speed of primordial gravitational waves

William Giarè, Fabrizio Renzi

2020Physical review. D/Physical review. D.47 citationsDOIOpen Access PDF

Abstract

Primordial gravitational waves, i.e., a background of metric perturbations sourced by the quantum inflationary fluctuations, if measured, could both provide substantial evidence for primordial inflation and shed light on physics at extremely high energy scales. In this work we focus on their propagating speed. Using an effective field theory approach we introduce a time-dependent propagating speed ${c}_{\mathrm{T}}(t)$ showing that also small deviations from the general relativity (GR) prediction ${c}_{\mathrm{T}}(t)=c$ can lead to testable consequences. We derive a set of equations that relate the propagating speed and its time dependence to the inflationary parameters and that generalize the usual slow roll consistency relations. Imposing the new generalized consistency relations and combining small and large scales data, we derive model-independent constraints on inflation with nontrivial primordial tensor speed. In particular, we constrain its scale dependence to be $d\mathrm{log}{c}_{\mathrm{T}}/d\mathrm{log}k=0.08{2}_{\ensuremath{-}0.11}^{+0.047}$ at 68% C.L. while we only derive the lower bound ${c}_{\mathrm{T}}>0.22c$ at 95% C.L. We also constrain the tensor-to-scalar ratio at the pivot scale ${k}_{*}=0.05\text{ }\text{ }{\mathrm{Mpc}}^{\ensuremath{-}1}$ to be $r<0.0599$ at 95% C.L. in agreement with the result provided by the Planck Collaboration. Thanks to a proper small scale parametrization of the tensor spectrum we derive stringent constraints on the tensor tilt ${n}_{\mathrm{T}}=\ensuremath{-}0.08{4}_{\ensuremath{-}0.047}^{+0.10}$ at 68% C.L. and on its runnings ${\ensuremath{\alpha}}_{\mathrm{T}}=d{n}_{\mathrm{T}}/d\mathrm{log}k=0.014{1}_{\ensuremath{-}0.021}^{+0.0035}$ and ${\ensuremath{\beta}}_{\mathrm{T}}=d{\ensuremath{\alpha}}_{\mathrm{T}}/d\mathrm{log}k=\ensuremath{-}0.006{1}_{\ensuremath{-}0.0014}^{+0.010}$ both at 68% C.L. Our results show a remarkable agreement with the standard slow roll predictions and prove that current data can significantly constrain deviations from GR on the inflationary energy scales.

Topics & Concepts

PhysicsGravitational waveGeneral relativityTensor (intrinsic definition)Mathematical physicsInflation (cosmology)Scalar (mathematics)Speed of light (cellular automaton)GravitationTheoretical physicsQuantum mechanicsGeometryMathematicsCosmology and Gravitation TheoriesGeophysics and Gravity MeasurementsBlack Holes and Theoretical Physics
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