Add to ORKGWe investigate stability of the scale-invariant solutions of the BBGKY equations for two-point spatial correlation functions of the density fluctuations in the strongly non-linear regime. In the case that the background skewness of the velocity field is equal to 0, we found that there is no local instability in the strongly non-linear regime. The perturbation does not grow nor does it decay. It has an only marginal stable mode. This result means that no special value of the power index of the two-point spatial correlation function are favored in terms of the stability of the solutions. In other words, the argument about the stability does not determine the power index of the two-point spatial correlation functions in the strongly non-linear...
Large-scale structure surveys have the potential to become the leading probe for precision cosmology...
Sorry, the full text of this article is not available here. Please click on the alternative location...
We discuss the late-time evolution of the gravitational clustering in an expanding universe, based o...
Using an ensemble of high resolution 2D numerical simulations, we explore the scaling properties of ...
We use the BBGKY hierarchy equations to calculate, perturbatively, the lowest order nonlinear correc...
International audienceThe determination of the resolution of cosmological N-body simulations, i.e. t...
We use the BBGKY hierarchy equations to calculate, perturbatively, the lowest order nonlinear correc...
The nonlinear clustering of dark matter particles in an expanding universe is usually studied by N-b...
We use the BBGKY hierarchy equations to calculate, perturbatively, the lowest order nonlinear correc...
30 pages, 13 figuresInternational audienceWe study non-linear gravitational clustering from cold gau...
We consider one-loop corrections to the bispectrum and skewness of cosmological density fluctuations...
We use non-linear scaling relations (NSRs) to investigate the effects arising from the existence of ...
It is known that radial collapse around density peaks can explain the key features of the evolution ...
Hamilton et al. have suggested an invaluable scaling formula which describes how the power spectra o...
We report on the detailed analysis of the mean-pairwise peculiar velocity profile in high-resolution...
Large-scale structure surveys have the potential to become the leading probe for precision cosmology...
Sorry, the full text of this article is not available here. Please click on the alternative location...
We discuss the late-time evolution of the gravitational clustering in an expanding universe, based o...
Using an ensemble of high resolution 2D numerical simulations, we explore the scaling properties of ...
We use the BBGKY hierarchy equations to calculate, perturbatively, the lowest order nonlinear correc...
International audienceThe determination of the resolution of cosmological N-body simulations, i.e. t...
We use the BBGKY hierarchy equations to calculate, perturbatively, the lowest order nonlinear correc...
The nonlinear clustering of dark matter particles in an expanding universe is usually studied by N-b...
We use the BBGKY hierarchy equations to calculate, perturbatively, the lowest order nonlinear correc...
30 pages, 13 figuresInternational audienceWe study non-linear gravitational clustering from cold gau...
We consider one-loop corrections to the bispectrum and skewness of cosmological density fluctuations...
We use non-linear scaling relations (NSRs) to investigate the effects arising from the existence of ...
It is known that radial collapse around density peaks can explain the key features of the evolution ...
Hamilton et al. have suggested an invaluable scaling formula which describes how the power spectra o...
We report on the detailed analysis of the mean-pairwise peculiar velocity profile in high-resolution...
Large-scale structure surveys have the potential to become the leading probe for precision cosmology...
Sorry, the full text of this article is not available here. Please click on the alternative location...
We discuss the late-time evolution of the gravitational clustering in an expanding universe, based o...