Predictions for the Cosmic Microwave Background from an Anisotropic Quantum Bounce
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Date
2020
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American Physical Society revtex@aps.org
Abstract
We introduce an extension of the standard inflationary paradigm on which the big bang singularity is replaced by an anisotropic bounce. Unlike in the big bang model, cosmological perturbations find an adiabatic regime in the past. We show that this scenario accounts for the observed quadrupolar modulation in the temperature anisotropies of the cosmic microwave background, and we make predictions for the polarization angular correlation functions E-E, B-B, and E-B, together with temperature-polarization correlations T-B and T-E, that can be used to test our ideas. We base our calculations on the bounce predicted by loop quantum cosmology, but our techniques and conclusions apply to other bouncing models as well. © 2020 American Physical Society.
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Keywords
Anisotropy, Polarization, Angular correlations, Big Bang model, Bouncing models, Cosmic microwave backgrounds, Cosmological perturbation, Loop quantum cosmologies, Temperature anisotropy, Temperature polarization, Cosmology, anisotropy, article, calculation, correlation function, cosmos, microwave radiation, polarization, prediction, temperature sensitivity
Citation
Physical Review Letters, 2020, 124, 25, pp. -