This paper describes the generation of initial conditions for numerical simulations in cosmology with multiple levels of resolution, or multiscale simulations. We present the theory of adaptive mesh refinement of Gaussian random fields followed by the implementation and testing of a computer code package performing this refinement called GRAFIC2. This package is available to the computational cosmology community at http://arcturus.mit.edu/grafic/ or by email from the author
We develop an algorithm for setting up tailor-made initial conditions for cosmological N-body simula...
International audienceWe study structure formation in a set of cosmological simulations to uncover t...
We study structure formation in a set of cosmological simulations to uncover the scales in the initi...
We describe how to define an extremely large discrete realisation of a Gaussian white noise field th...
The leading modern theories of cosmological inflation are increasingly multi-dimensional. The “inflato...
We describe how to define an extremely large discrete realization of a Gaussian white noise field th...
Our goal is to develop software libraries and applications for astrophysical fluid dynamics simulati...
We discuss a new algorithm to generate multi-scale initial conditions with multiple levels of refine...
We analyze and compare the efficiency and accuracy of two simulation methods for homogeneous random ...
International audienceThis paper proposes a new scheme for the generation of Gaussian random fields ...
We discuss a new algorithm to generate multi-scale initial conditions with multiple levels of refine...
The leading theories of inflation are increasingly multi-dimensional. In this project, we consider a...
42 pages, 16 figures, accepted for publication in Space Science Reviews, special issue "Clusters of ...
There is considerable interest in inflationary models with multiple inflaton fields. The inflaton fi...
We develop an algorithm for setting up tailor-made initial conditions for cosmological N-body simula...
We develop an algorithm for setting up tailor-made initial conditions for cosmological N-body simula...
International audienceWe study structure formation in a set of cosmological simulations to uncover t...
We study structure formation in a set of cosmological simulations to uncover the scales in the initi...
We describe how to define an extremely large discrete realisation of a Gaussian white noise field th...
The leading modern theories of cosmological inflation are increasingly multi-dimensional. The “inflato...
We describe how to define an extremely large discrete realization of a Gaussian white noise field th...
Our goal is to develop software libraries and applications for astrophysical fluid dynamics simulati...
We discuss a new algorithm to generate multi-scale initial conditions with multiple levels of refine...
We analyze and compare the efficiency and accuracy of two simulation methods for homogeneous random ...
International audienceThis paper proposes a new scheme for the generation of Gaussian random fields ...
We discuss a new algorithm to generate multi-scale initial conditions with multiple levels of refine...
The leading theories of inflation are increasingly multi-dimensional. In this project, we consider a...
42 pages, 16 figures, accepted for publication in Space Science Reviews, special issue "Clusters of ...
There is considerable interest in inflationary models with multiple inflaton fields. The inflaton fi...
We develop an algorithm for setting up tailor-made initial conditions for cosmological N-body simula...
We develop an algorithm for setting up tailor-made initial conditions for cosmological N-body simula...
International audienceWe study structure formation in a set of cosmological simulations to uncover t...
We study structure formation in a set of cosmological simulations to uncover the scales in the initi...