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Building a boostless bootstrap for the bispectrum

Enrico Pajer

2021Journal of Cosmology and Astroparticle Physics114 citationsDOIOpen Access PDF

Abstract

The observation of primordial correlators by cosmological surveys is a very promising avenue to probe high energies and the perturbative regime of quantum gravity. Hence, it is imperative that we understand how these observables are shaped by the pillars of fundamental physics, namely unitarity, locality and symmetries. To this end, we study the three-point correlators of gravitons and scalar curvature perturbations around a quasi de Sitter spacetime. We identify a set of Bootstrap Rules that fully fix the form of these correlators in the asymptotic future, i.e. at the boundary, and make no reference to bulk time evolution. Importantly, our Boostless Bootstrap accounts for the ubiquitous (spontaneous) breaking of de Sitter boosts caused by any inflationary background. We show how all bispectra involving gravitons in single-clock, canonical inflation can be easily derived in this approach. We also derive for the first time the scalar bispectrum in the Effective Field Theory of inflation to any order in derivatives. In many cases, our derivation is computationally simpler than the corresponding explicit calculation, and makes particularly transparent the implications of locality, the choice of vacuum, and the underlying symmetries.

Topics & Concepts

BispectrumPhysicsGravitonNon-GaussianityObservableCosmological perturbation theoryInflation (cosmology)De Sitter universeTheoretical physicsCurvatureScalar (mathematics)Slow rollExtra dimensionsStatistical physicsField (mathematics)Spectrum (functional analysis)De Sitter spaceMathematical physicsScalar fieldSpectral densityEffective field theoryCosmologyMassless particleAnti-de Sitter spaceOrder (exchange)LocalityCosmic microwave backgroundParticle physicsEntropy (arrow of time)Space timeSet (abstract data type)Parameter spaceInflatonSpace (punctuation)Quantum electrodynamicsPerturbation theory (quantum mechanics)UniversePrimordial fluctuationsSpacetimeClassical mechanicsCosmology and Gravitation TheoriesNoncommutative and Quantum Gravity TheoriesBlack Holes and Theoretical Physics
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