Observational exclusion of a consistent loop quantum cosmology scenario

Boris Bolliet, Aurélien Barrau, Julien Grain, and Susanne Schander
Phys. Rev. D 93, 124011 – Published 6 June 2016
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  • INTRODUCTION
  • THE DEFORMED ALGEBRA APPROACH
  • MODEL AND ASSUMPTIONS
  • OBSERVATIONAL CONSTRAINTS
  • RESULTS
  • DISCUSSION AND CONCLUSION
  • ACKNOWLEDGMENTS
    • References

    Abstract

    It is often argued that inflation erases all the information about what took place before it started. Quantum gravity, relevant in the Planck era, seems therefore mostly impossible to probe with cosmological observations. In general, only very ad hoc scenarios or hyper fine-tuned initial conditions can lead to observationally testable theories. Here we consider a well-defined and well-motivated candidate quantum cosmology model that predicts inflation. Using the most recent observational constraints on the cosmic microwave background B-modes, we show that the model is excluded for all its parameter space, without any tuning. Some important consequences are drawn for the deformed algebra approach to loop quantum cosmology. We emphasize that neither loop quantum cosmology in general nor loop quantum gravity are disfavored by this study but their falsifiability is established.

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    • Received 4 November 2015

    DOI:https://doi.org/10.1103/PhysRevD.93.124011

    © 2016 American Physical Society

    Physics Subject Headings (PhySH)

    1. Research Areas
    CosmologyLoop quantum gravityQuantum gravity
    Gravitation, Cosmology & Astrophysics

    Authors & Affiliations

    Boris Bolliet1,*, Aurélien Barrau1, Julien Grain2,3, and Susanne Schander1

    • 1Laboratoire de Physique Subatomique et de Cosmologie, Université Grenoble-Alpes, CNRS/IN2P3 53, avenue des Martyrs, 38026 Grenoble cedex, France
    • 2CNRS, Institut d’Astrophysique Spatiale, UMR8617, F-91405 Orsay, France
    • 3Université Paris-Sud 11, Orsay F-91405, France

    • *Corresponding author. boris.bolliet@lpsc.in2p3.fr

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    Issue

    Vol. 93, Iss. 12 — 15 June 2016

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