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Inflationary gravitational waves in consistent <i>D</i> → 4 Einstein-Gauss-Bonnet gravity

Katsuki Aoki, Mohammad Ali Gorji, Shuntaro Mizuno, Shinji Mukohyama

2021Journal of Cosmology and Astroparticle Physics41 citationsDOIOpen Access PDF

Abstract

We study the slow-roll single field inflation in the context of the consistent $D\to4$ Einstein-Gauss-Bonnet gravity that was recently proposed in \cite{Aoki:2020lig}. In addition to the standard attractor regime, we find a new attractor regime which we call the Gauss-Bonnet attractor as the dominant contribution comes from the Gauss-Bonnet term. Around this attractor solution, we find power spectra and spectral tilts for the curvature perturbations and gravitational waves (GWs) and also a model-independent consistency relation among observable quantities. The Gauss-Bonnet term provides a nonlinear $k^4$ term to the GWs dispersion relation which has the same order as the standard linear $k^2$ term at the time of horizon crossing around the Gauss-Bonnet attractor. The Gauss-Bonnet attractor regime thus provides a new scenario for the primordial GWs which can be tested by observations. Finally, we study non-Gaussianity of GWs in this model and estimate the nonlinear parameters $f^{s_1s_2s_3}_{\rm NL,\;sq}$ and $f^{s_1s_2s_3}_{\rm NL,\;eq}$ by fitting the computed GWs bispectra with the local-type and equilateral-type templates respectively at the squeezed limit and at the equilateral shape. For helicities $(+++)$ and $( -- )$, $f^{s_1s_2s_3}_{\rm NL,\;sq}$ is larger while $f^{s_1s_2s_3}_{\rm NL,\;eq}$ is larger for helicities $(++-)$ and $(--+)$.

Topics & Concepts

PhysicsAttractorGravitational waveInflation (cosmology)Non-GaussianityContext (archaeology)CurvatureNonlinear systemObservableEquilateral triangleSpectral densityDispersion relationTerm (time)Classical mechanicsLimit (mathematics)HorizonGravitationField (mathematics)Quantum electrodynamicsStatistical physicsTheoretical physicsDispersion (optics)Degeneracy (biology)AstrophysicsBispectrumCosmologyGravitational fieldUniverseCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsGalaxies: Formation, Evolution, Phenomena
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