An exact quantification of backreaction in relativistic cosmology

Clifton, Timothy; Rosquist, Kjell; Tavakol, Reza

doi:10.1103/physrevd.86.043506

Cited by 75 publications

(239 citation statements)

References 38 publications

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“…The black hole lattice universe is often used as one of tools to evaluate effects of local non-linear inhomogeneities on the global expansion. Recently, black hole lattice universe models have been revisited by several authors [2][3][4][5][6][7][8][9][10][11][12]. Time symmetric initial data for N-black hole systems on a virtual 3-sphere have been analyzed in Refs.…”

Section: Introductionmentioning

confidence: 99%

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Black hole universe with a cosmological constant

Yoo

Okawa²

2014

Phys. Rev. D

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Time evolution of a black hole lattice universe with a positive cosmological constant Λ is simulated. The vacuum Einstein equations are numerically solved in a cubic box with a black hole in the center. Periodic boundary conditions on all pairs of opposite faces are imposed. Configurations of marginally trapped surfaces are analyzed. We describe the time evolution of not only black hole horizons, but also cosmological horizons. Defining the effective scale factor by using the area of a surface of the cubic box, we compare it with that in the spatially flat dust dominated FLRW universe with the same value of Λ. It is found that the behaviour of the effective scale factor is well approximated by that in the FLRW universe. Our result suggests that local inhomogeneities do not significantly affect the global expansion law of the universe irrespective of the value of Λ. * Electronic address: yoo@gravity.phys.nagoya-u.ac.jp † Electronic address: hirotada.okawa@ist.utl.pt 2

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Section: Introductionmentioning

confidence: 99%

“…Time symmetric initial data for N-black hole systems on a virtual 3-sphere have been analyzed in Refs. [4,12]. Time evolution of the 8-black hole system has been performed and analyzed in Ref.…”

Section: Introductionmentioning

confidence: 99%

Black hole universe with a cosmological constant

Yoo

Okawa²

2014

Phys. Rev. D

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“…When the masses in these models are identical and regularly distributed, then the difference in scale of between models with the same total proper mass can be calculated 3 . This is shown graphically in Fig.…”

Section: Cosmological Consequences Of Interaction Energiesmentioning

confidence: 99%

What’s the matter in cosmology?

Clifton¹

2017

The Fourteenth Marcel Grossmann Meeting

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Almost all models of the universe start by assuming that matter fields can be modelled as dust. In the real universe, however, matter is clumped into dense objects that are separated by regions of space that are almost empty. If we are to treat such a distribution of matter as being modelled as a fluid, in some average or coarse-grained sense, then there a number of questions that must be answered. One of the most fundamental of these is whether or not the interaction energy between masses should gravitate. If it does, then a dust-like description may not be sufficient. We would then need to ask how interaction energies should be calculated in cosmology, and how they should appear in the Friedmann-like equations that govern the large-scale behaviour of the universe. I will discuss some recent results that may shed light on these questions.

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“…In this approach, one makes use of a vacuum energy cosmological constant (for the sake of clearness, the cosmological constant approach is physically different from dark energy. In the second case, there is no need to introduce the effects due to quantum vacuum energy into Einstein's equations, employing an evolving barotropic factor) [12][13][14][15][16][17][18][19][20][21][22], providing a constant equation of state [23][24][25][26][27] which counterbalances the action of gravity after the transition time (which represents the onset of acceleration [28], i.e., when the cosmological constant starts dominating over pressureless matter). In this picture, the universe energy budget is essentially composed of cold dark matter for about 23%, of 4% of baryons as visible matter, and of 73% of cosmological constant [29][30][31][32][33][34].…”

Section: Introductionmentioning

confidence: 99%

A Thermodynamic Approach to Holographic Dark Energy

Luongo

2017

Advances in High Energy Physics

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We propose a method to relate the holographic minimal information density to de Broglie's wavelength at a given universe temperature . To figure this out, we assume that the thermal length of massive and massless constituents represents the cutoff scale of the holographic principle. To perform our analysis, we suppose two plausible universe volumes, that is, the adiabatic and the horizon volumes, that is, ∝ 3 and ∝ −3 , respectively, assuming zero spatial curvature. With these choices in mind, we evaluate the thermal lengths for massive and massless particles and we thus find two cosmological models associated with late and early cosmological epochs. We demonstrate that both models depend upon a free term which enters the temperature parametrization in terms of the redshift . For the two treatments, we show evolving dark energy terms which can be compared with the CDM quintessence paradigm when the barotropic factor takes the formal values 0 = −(1/3)(2 + ) and 0 = −(1/3)(1 + 2 ), respectively, for late and early eras. From our analyses, we nominate the two models as viable alternatives to dark energy determined from thermodynamics in the field of the holographic principle.

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An exact quantification of backreaction in relativistic cosmology

Cited by 75 publications

References 38 publications

Black hole universe with a cosmological constant

Black hole universe with a cosmological constant

What’s the matter in cosmology?

A Thermodynamic Approach to Holographic Dark Energy

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