Likelihood analysis of small field polynomial models of inflation yielding a high Tensor-to-Scalar ratio

Likelihood analysis of small field polynomial models of inflation yielding a high Tensor-to-Scalar ratio

Inflationary potentials, with Planckian field excursions, described by a 6th degree polynomial are studied. We solve the Mukhanov-Sasaki equations exactly and employ a probabilistic approach as well as multinomial fitting to analyse the results. We identify the most likely models which yield a tenso...

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Veröffentlicht in:PloS one 2019-04, Vol.14 (4), p.e0215287
Hauptverfasser: Wolfson, Ira, Brustein, Ramy
Format: Artikel
Sprache:eng
Schlagworte:
Astronomical Phenomena
Big Bang theory
Collaboration
Computer simulation
Conventions
Cosmic background radiation
Cosmic microwave background
Cosmic Radiation
Cosmology
Dependence
Gravitational waves
Inflation (Economics)
Israel
Likelihood Functions
Markov Chains
Markov processes
Mathematical analysis
Models, Statistical
Models, Theoretical
Monte Carlo Method
Monte Carlo methods
Monte Carlo simulation
Physics
Polynomials
String theory
Tensors
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Zusammenfassung:Inflationary potentials, with Planckian field excursions, described by a 6th degree polynomial are studied. We solve the Mukhanov-Sasaki equations exactly and employ a probabilistic approach as well as multinomial fitting to analyse the results. We identify the most likely models which yield a tensor-to-scalar ratio r = 0.01 in addition to currently allowed Cosmic Microwave Background (CMB) spectrum and observables. Additionally, we find a significant inter-dependence of CMB observables in these models. This might be an important effect for future analyses, since the different moments of the primordial power spectrum are taken to be independent in the usual Markov chain Monte Carlo methods.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0215287