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Stochastic gravitational-wave background in quantum gravity

Gianluca Calcagni, Sachiko Kuroyanagi

2021Journal of Cosmology and Astroparticle Physics41 citationsDOIOpen Access PDF

Abstract

Among all cosmological quantum-gravity or quantum-gravity-inspired scenarios, only very few predict a blue-tilted primordial tensor spectrum. We explore five of them and check whether they can generate a stochastic gravitational-wave background detectable by present and future interferometers: non-local quantum gravity, string-gas cosmology, new ekpyrotic scenario, Brandenberger-Ho non-commutative inflation and multi-fractional spacetimes. We show that non-local quantum gravity is unobservable, while all the other models can reach the strain sensitivity of DECIGO but not that of LIGO-Virgo-KAGRA, LISA or Einstein Telescope. Other quantum-gravity models with red-tilted spectra (most loop quantum cosmologies) or with exceptionally tiny quantum corrections (Wheeler-DeWitt quantum cosmology) are found to be non-detectable.

Topics & Concepts

PhysicsInflation (cosmology)Ekpyrotic universeQuantum gravityQuantumQuantum cosmologyTheoretical physicsTensor (intrinsic definition)Non-GaussianityQuantum mechanicsCosmologySensitivity (control systems)Loop quantum cosmologySpectral lineClassical mechanicsDark energyQuantum fluctuationPrimordial fluctuationsCosmological perturbation theoryUniverseGravitationSemiclassical gravityAxionQuantum geometryHubble's lawCosmological constantLoop quantum gravityQuantum discordOpen quantum systemStatistical physicsQuantum electrodynamicsQuantum processStochastic processCosmological modelNoncommutative and Quantum Gravity TheoriesCosmology and Gravitation TheoriesBlack Holes and Theoretical Physics
Stochastic gravitational-wave background in quantum gravity | Litcius