International audienceWe have explored the evolution of gas distributions from cosmological simulations carried out using the ramses adaptive mesh refinement (AMR) code, to explore the effects of resolution on cosmological hydrodynamical simulations. It is vital to understand the effect of both the resolution of initial conditions (ICs) and the final resolution of the simulation. Lower initial resolution simulations tend to produce smaller numbers of low-mass structures. This will strongly affect the assembly history of objects, and has the same effect of simulating different cosmologies. The resolution of ICs is an important factor in simulations, even with a fixed maximum spatial resolution. The power spectrum of gas in simulations using ...
We examine how three fundamentally different numerical hydrodynamics codes follow the evolution of a...
AbstractWe describe a powerful methodology for numerical solution of 3-D self-gravitational hydrodyn...
We introduce CRASH-AMR, a new version of the cosmological radiative transfer (RT) code CRASH, enable...
International audienceWe have explored the evolution of gas distributions from cosmological simulati...
A new N-body and hydrodynamical code, called RAMSES, is presented. It has been designed to study str...
As an entry for the 2001 Gordon Bell Award in the "special" category, we describe our 3-d, hybrid, a...
A new N-body and hydrodynamical code, called RAMSES, is presented. It has been designed to study str...
none5We compare two different codes for simulations of cosmological structure formation to investiga...
Numerical effects are known to plague adaptive mesh refinement (AMR) codes when treating massive par...
In the early universe, substantial relative “stream ” velocities between the gas and dark matter ari...
Our goal is to develop software libraries and applications for astrophysical fluid dynamics simulati...
For quantitative examination of phenomena that simultaneously occur on very different spatial and te...
International audienceContext: The rapid development of parallel supercomputers is enabling the deta...
In this thesis, we develop an adaptive mesh refinement (AMR) code including magnetic fields, and use...
We have carried out numerical simulations of strongly gravitating systems based on the Einstein equa...
We examine how three fundamentally different numerical hydrodynamics codes follow the evolution of a...
AbstractWe describe a powerful methodology for numerical solution of 3-D self-gravitational hydrodyn...
We introduce CRASH-AMR, a new version of the cosmological radiative transfer (RT) code CRASH, enable...
International audienceWe have explored the evolution of gas distributions from cosmological simulati...
A new N-body and hydrodynamical code, called RAMSES, is presented. It has been designed to study str...
As an entry for the 2001 Gordon Bell Award in the "special" category, we describe our 3-d, hybrid, a...
A new N-body and hydrodynamical code, called RAMSES, is presented. It has been designed to study str...
none5We compare two different codes for simulations of cosmological structure formation to investiga...
Numerical effects are known to plague adaptive mesh refinement (AMR) codes when treating massive par...
In the early universe, substantial relative “stream ” velocities between the gas and dark matter ari...
Our goal is to develop software libraries and applications for astrophysical fluid dynamics simulati...
For quantitative examination of phenomena that simultaneously occur on very different spatial and te...
International audienceContext: The rapid development of parallel supercomputers is enabling the deta...
In this thesis, we develop an adaptive mesh refinement (AMR) code including magnetic fields, and use...
We have carried out numerical simulations of strongly gravitating systems based on the Einstein equa...
We examine how three fundamentally different numerical hydrodynamics codes follow the evolution of a...
AbstractWe describe a powerful methodology for numerical solution of 3-D self-gravitational hydrodyn...
We introduce CRASH-AMR, a new version of the cosmological radiative transfer (RT) code CRASH, enable...