Cosmological Density Perturbations From A Quantum Gravitational Model Of Inflation

Abstract

We derive the implications for anisotropies in the cosmic microwave background following from a model of inflation in which a bare cosmological constant is gradually screened by an infrared process in quantum gravity. The model predicts that the amplitude of scalar perturbations is AS = (2.0 .2) × 10-5, that the tensor-to-scalar ratio is r ≈ 1.7 × 10-3, and that the scalar and tensor spectral indices are n ≈ .97 and nT ≈ -2.8 × 10-4, respectively. By comparing the model's power spectrum with the COBE 4-year RMS quadrupole, the mass scale of inflation is determined to be M = (.72 .03) × 1016~ GeV. At this scale the model produces about 108 e-foldings of inflation, so another prediction is = 1.

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