Screening anisotropy via energy-momentum squared gravity: ΛcDM model with hidden anisotropy

Özgür Akarsu, John D. Barrow, N. Merve Uzun

Research output: Contribution to journalArticlepeer-review

29 Citations (Scopus)

Abstract

We construct a generalization of the standard ΛCDM model, wherein we simultaneously replace the spatially flat Robertson-Walker metric with its simplest anisotropic generalization (LRS Bianchi I metric), and couple the cold dark matter to the gravity in accordance with the energy-momentum squared gravity (EMSG) of the form f(TμνTμν)∝TμνTμν. These two modifications - namely, two new stiff fluid-like terms of different nature - can mutually cancel out, i.e., the shear scalar can be screened completely, and reproduce mathematically exactly the same Friedmann equation of the standard ΛCDM model. This evades the BBN limits on the anisotropy, and thereby provides an opportunity to manipulate the cosmic microwave background quadrupole temperature fluctuation at the desired amount. We further discuss the consequences of the model on the very early times and far future of the Universe. This study presents also an example of that the EMSG of the form f(TμνTμν)∝TμνTμν, as well as similar type other constructions, is not necessarily relevant only to very early Universe but may even be considered in the context of a major problem of the current cosmology related to the present-day Universe, the so-called H0 problem.

Original languageEnglish
Article number124059
JournalPhysical Review D
Volume102
Issue number12
DOIs
Publication statusPublished - 28 Dec 2020

Bibliographical note

Publisher Copyright:
© 2020 American Physical Society.

Funding

The authors thank to Nihan Katırcı, Suresh Kumar, and Jorge Noreña for discussions. Ö. A. acknowledges the support by the Turkish Academy of Sciences in scheme of the Outstanding Young Scientist Award (TÜBA-GEBİP). Ö. A. also acknowledges the support received from, and hospitality of the Abdus Salam International Center for Theoretical Physics (ICTP), where most of this work was carried out. J. D. B. is supported by the Science and Technology Funding Council (STFC) of the UK.

FundersFunder number
Science and Technology Funding Council
TÜBA-GEBİP
Türkiye Bilimler Akademisi

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