Large-scale structure formation can be modeled as a nonlinear process that transfers energy from the largest scales to successively smaller scales until it is dissipated, in analogy with Kolmogorov’s cascade model of incompressible turbulence. However, cosmic turbulence is very compressible, and vorticity plays a secondary role in it. The simplest model of cosmic turbulence is the adhesion model, which can be studied perturbatively or adapting to it Kolmogorov’s non-perturbative approach to incompressible turbulence. This approach leads to observationally testable predictions, e.g., to the power-law exponent of the matter density two-point correlation function
We use the BBGKY hierarchy equations to calculate, perturbatively, the lowest order nonlinear correc...
We discuss the late-time evolution of the gravitational clustering in an expanding universe, based o...
The large-scale structure in the universe is believed to have arisen out of small, random density pe...
Large-scale structure formation can be modeled as a nonlinear process that transfers energy from the...
The Kolmogorov approach to turbulence is applied to the Burgers turbulence in the stochastic adhesio...
International audienceContext. The formation of astrophysical structures, such as stars, compact obj...
The gravitational clustering of collisionless particles in an expanding universe is modelled using s...
We propose a phenomenological generalization of the models of large-scale structure formation in the...
We investigate the properties of highly compressible turbulence, the compressibility arising from a ...
Protostellar outflows crisscross the regions of star cluster formation, stirring turbulence and alte...
The gravitational clustering of collisionless particles in an expanding universe is modelled using s...
We use the BBGKY hierarchy equations to calculate, perturbatively, the lowest order nonlinear correc...
We develop an analytic framework to understand fragmentation in turbulent, self-gravitating media. I...
In this paper we present a study of the cosmic flow from the point of view of how clusterings at dif...
Turbulence is a key ingredient for the evolution of the intracluster medium, whose properties can be...
We use the BBGKY hierarchy equations to calculate, perturbatively, the lowest order nonlinear correc...
We discuss the late-time evolution of the gravitational clustering in an expanding universe, based o...
The large-scale structure in the universe is believed to have arisen out of small, random density pe...
Large-scale structure formation can be modeled as a nonlinear process that transfers energy from the...
The Kolmogorov approach to turbulence is applied to the Burgers turbulence in the stochastic adhesio...
International audienceContext. The formation of astrophysical structures, such as stars, compact obj...
The gravitational clustering of collisionless particles in an expanding universe is modelled using s...
We propose a phenomenological generalization of the models of large-scale structure formation in the...
We investigate the properties of highly compressible turbulence, the compressibility arising from a ...
Protostellar outflows crisscross the regions of star cluster formation, stirring turbulence and alte...
The gravitational clustering of collisionless particles in an expanding universe is modelled using s...
We use the BBGKY hierarchy equations to calculate, perturbatively, the lowest order nonlinear correc...
We develop an analytic framework to understand fragmentation in turbulent, self-gravitating media. I...
In this paper we present a study of the cosmic flow from the point of view of how clusterings at dif...
Turbulence is a key ingredient for the evolution of the intracluster medium, whose properties can be...
We use the BBGKY hierarchy equations to calculate, perturbatively, the lowest order nonlinear correc...
We discuss the late-time evolution of the gravitational clustering in an expanding universe, based o...
The large-scale structure in the universe is believed to have arisen out of small, random density pe...