Gravitational fluctuations as an alternative to inflation II. CMB angular power spectrum
Gravitational fluctuations as an alternative to inflation II. CMB angular power spectrum
Power spectra always play an important role in the theory of inflation. In particular, the ability to reproduce the galaxy matter power spectrum P(k) and the CMB temperature angular power spectrum Cl ’s to high accuracy is often considered a triumph of inflation. In our previous work, we presented an alternative explanation for the matter power spectrum based on nonperturbative quantum field-theoretical methods applied to Einstein’s gravity, instead of inflation models based on scalar fields. In this work, we review the basic concepts and provide further in-depth investigations. We first update the analysis with more recent data sets and error analysis, and then extend our predictions to the CMB angular spectrum coefficients Cl , which we did not consider previously. Then we investigate further the potential freedoms and uncertainties associated with the fundamental parameters that are part of this picture, and show how recent cosmological data provides significant constraints on these quantities. Overall, we find good general consistency between theory and data, even potentially favoring the gravitationally-motivated picture at the largest scales. We summarize our results by outlining how this picture can be tested in the near future with increasingly accurate astrophysical measurements
Hamber, Herbert W.
e83c2362-977b-44cf-8cee-102c4242befd
Yu, Lu Heng Sunny
ef5bc4e3-409d-455e-a808-f5da5f3d1416
31 October 2019
Hamber, Herbert W.
e83c2362-977b-44cf-8cee-102c4242befd
Yu, Lu Heng Sunny
ef5bc4e3-409d-455e-a808-f5da5f3d1416
Hamber, Herbert W. and Yu, Lu Heng Sunny
(2019)
Gravitational fluctuations as an alternative to inflation II. CMB angular power spectrum.
Universe, 5 (11), [216].
(doi:10.3390/universe5110216).
Abstract
Power spectra always play an important role in the theory of inflation. In particular, the ability to reproduce the galaxy matter power spectrum P(k) and the CMB temperature angular power spectrum Cl ’s to high accuracy is often considered a triumph of inflation. In our previous work, we presented an alternative explanation for the matter power spectrum based on nonperturbative quantum field-theoretical methods applied to Einstein’s gravity, instead of inflation models based on scalar fields. In this work, we review the basic concepts and provide further in-depth investigations. We first update the analysis with more recent data sets and error analysis, and then extend our predictions to the CMB angular spectrum coefficients Cl , which we did not consider previously. Then we investigate further the potential freedoms and uncertainties associated with the fundamental parameters that are part of this picture, and show how recent cosmological data provides significant constraints on these quantities. Overall, we find good general consistency between theory and data, even potentially favoring the gravitationally-motivated picture at the largest scales. We summarize our results by outlining how this picture can be tested in the near future with increasingly accurate astrophysical measurements
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1910.02990
- Accepted Manuscript
Text
universe-05-00216-v2
- Version of Record
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Accepted/In Press date: 25 October 2019
Published date: 31 October 2019
Identifiers
Local EPrints ID: 470325
URI: http://eprints.soton.ac.uk/id/eprint/470325
ISSN: 2218-1997
PURE UUID: ffa65a15-76f0-4d55-9ffa-1e2debc0dd3b
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Date deposited: 06 Oct 2022 16:50
Last modified: 17 Mar 2024 04:09
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Author:
Herbert W. Hamber
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