Scaling in Cosmic Structures

Pietronero, L.; Bottaccio, M.; Montuori, M.; Labini, Francesco Sylos

doi:10.1142/9789812778109_0028

Cited by 8 publications

(9 citation statements)

References 6 publications

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“…The fractal proponents (Pietronero et al 1997) have estimated D 2 ≈ 2 for all scales up to ∼ 500 h −1 Mpc, whereas other groups have obtained scale-dependent values (for review see Wu et al 1999 and references therein).…”

Section: Is the Universe Fractal ?mentioning

confidence: 99%

Observational Tests for the Cosmological Principle and World Models

Lahav¹

2001

Structure Formation in the Universe

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Abstract. We review observational tests for the homogeneity of the Universe on large scales. Redshift and peculiar velocity surveys, radio sources, the X-Ray Background, the Lyman-α forest and the Cosmic Microwave Background are used to set constraints on inhomogeneous models and in particular on fractal-like models. Assuming the Cosmological Principle and the FRW metric, we estimate cosmological parameters by joint analysis of peculiar velocities, the CMB, cluster abundance, IRAS and Supernovae. Under certain assumptions the best fit density parameter is Ω m = 1−λ ≈ 0.4. We present a new method for joint estimation by combining different data sets in a Bayesian way, and utilising 'Hyper-Parameters'.

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Section: Is the Universe Fractal ?mentioning

confidence: 99%

Observational Tests for the Cosmological Principle and World Models

Lahav¹

2001

Structure Formation in the Universe

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“…While Ribeiro (1992b) showed that an unperturbed EdS model does not have scale invariant features, in the sense of not having a power law decay of the average density at increasing depths, it, nevertheless, also showed very clearly that there is indeed a strong decay of the average density at increasing values of the luminosity distance or the redshift, an effect termed by Ribeiro (1995) as "observational inhomogeneity of the standard model". 2 Bearing this result in mind, it is only natural to ask whether or not a perturbed model could turn the density decay at increasing redshift depths into a power law type decay, as predicted, and claimed to be observed, by the scale invariant description of galaxy clustering (Pietronero 1987;Coleman and Pietronero 1992;Pietronero et al 1997;Ribeiro and Miguelote 1998;Sylos-Labini et al 1998;Pietronero and Sylos-Labini 2000).…”

Section: Introductionmentioning

confidence: 96%

Scale Invariance in a Perturbed Einstein-De Sitter Cosmology

Abdalla

Mohayaee

Ribeiro³

2001

Fractals

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This paper seeks to check the validity of the apparent fractal conjecture (Ribeiro 2001ab), which states that the observed power-law behaviour for the average density of large-scale distribution of galaxies arises when some observational quantities, selected by their relevance in average density profile determination, are calculated along the past light cone.Since general relativity states that astronomical observations are carried out in this spacetime hypersurface, observables necessary for direct comparison with astronomical data must be calculated along it. Implementing this condition in the proposed set of observational relations profoundly changes the behaviour of many observables in the standard cosmological models. In particular, the average density becomes inhomogeneous, even in the spatially homogeneous spacetime of standard cosmology, change which was already analysed by Ribeiro (1992bRibeiro ( , 1993Ribeiro ( , 1994Ribeiro ( , 1995 for a non-perturbed model. Here we derive observational relations in a perturbed Einstein-de Sitter cosmology by means of the perturbation scheme proposed by , where the scale factor is expanded in power series to yield perturbative terms. The differential equations derived in this perturbative context, and other observables necessary in our analysis, are solved numerically. The results show that our perturbed Einstein-de Sitter cosmology can be approximately described by a decaying power-law like average density profile, meaning that the dust distribution of this cosmology has a scaling behaviour compatible with the power-law profile of the density-distance correlation observed in the galaxy catalogues.These results show that, in the context of this work, the apparent fractal conjecture is correct.

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“…It can be shown [25] that the mass function of a multifractal in a well defined volume, has a Press-Schechter shape with the exponent δ that depends on the shape of f (α). Moreover the fractal dimension of the support is D(0) = f (α s ) = 3 − γ (eq.…”

Section: The Multifractal Mass Distributionmentioning

confidence: 99%

“…The evidence that galaxian luminosity and location in space are not independent and that, on the contrary, are strongly correlated have important consequences in all the luminosity properties of visible matter and in relation to the methods that are usually used to study these properties [11], [25].…”

Section: The Multifractal Mass Distributionmentioning

confidence: 99%

Cosmological principle and the debate about large scale structures distribution

Pietronero

Labini

Birth of the Universe and Fundamental Physics

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Scaling in Cosmic Structures

Cited by 8 publications

References 6 publications

Observational Tests for the Cosmological Principle and World Models

Observational Tests for the Cosmological Principle and World Models

Scale Invariance in a Perturbed Einstein-De Sitter Cosmology

Cosmological principle and the debate about large scale structures distribution

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