Expansion and Growth of Structure Observables in a Macroscopic Gravity Averaged Universe

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Expansion and Growth of Structure Observables in a Macroscopic Gravity Averaged Universe

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Title: Expansion and Growth of Structure Observables in a Macroscopic Gravity Averaged Universe
Author(s):
Wijenayake, Tharake (UT Dallas);
Ishak-Boushaki, Mustapha (UT Dallas)
Format: Text
Item Type: Article
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Abstract: We investigate the effect of averaging inhomogeneities on expansion and large-scale structure growth observables using the exact and covariant framework of macroscopic gravity (MG). It is well known that applying the Einstein's equations and spatial averaging do not commute and lead to the averaging problem and backreaction terms. For the MG formalism applied to the Friedman-Lemaitre-Robertson-Walker (FLRW) metric, the extra term can be encapsulated as an averaging density parameter denoted Ω(A). An exact isotropic cosmological solution of MG for the flat FLRW metric is already known in the literature; we derive here an anisotropic exact solution. Using the isotropic solution, we compare the expansion history to current available data of distances to supernovae, baryon acoustic oscillations, cosmic microwave background last scattering surface data, and Hubble constant measurements, and find -0.05 ≤ Ω_A ≤ 0.07 (at the 95% confidence level). For the flat metric case this reduces to -0.03 ≤ Ω_A ≤ 0.05. The positive part of the intervals can be rejected if a mathematical (and physical) prior is taken into account. We also find that the inclusion of this term in the fits can shift the values of the usual cosmological parameters by a few to several percents. Next, we derive an equation for the growth rate of large-scale structure in MG that includes a term due to the averaging and assess its effect on the evolution of the growth compared to that of the Lambda cold dark matter (Λ CDM) concordance model. We find that an Ω_A term of an amplitude range of [-0.04; -0.02] lead to a relative deviation of the growth from that of the Λ CDM of up to 2%-4% at late times. Thus, the shift in the growth could be of comparable amplitude to that caused by similar changes in cosmological parameters like the dark energy density parameter or its equation of state. The effect could also be comparable in amplitude to some systematic effects considered for future surveys. This indicates that the averaging term and its possible effect need to be tightly constrained in future precision cosmological studies.
Publisher: American Physical Society
ISSN: 1550-7998
Persistent Link: http://hdl.handle.net/10735.1/4614
http://dx.doi.org/10.1103/PhysRevD.91.063534
Bibliographic Citation: Wijenayake, Tharake, and Mustapha Ishak. 2015. "Expansion and growth of structure observables in a macroscopic gravity averaged universe." Physical Review D 91(6): doi:10.1103/PhysRevD.91.063534.
Terms of Use: ©2015 American Physical Society
Sponsors: "M. I. acknowledges that this material is based upon work supported in part by NASA under Grant No. NNX09AJ55G and an award from the John Templeton Foundation."

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