We use the high-resolution cosmological N-body simulations from the Aquarius project to investigate in detail the mechanisms that determine the shape of Milky Way type dark matter haloes. We find that, when measured at the instantaneous virial radius, the shape of individual haloes changes with time, evolving from a typically prolate configuration at early stages to a more triaxial/oblate geometry at the present day. This evolution in halo shape correlates well with the distribution of the infalling material: prolate configurations arise when haloes are fed through narrow filaments, which characterizes the early epochs of halo assembly, whereas triaxial/oblate configurations result as the accretion turns more isotropic at later times. Inter...
We use N-body simulations to investigate the structure and dynamical evolution of dark matter haloes...
The balance of evidence indicates that individual galaxies and groups or clusters of galaxies are em...
Aims. It is well known that the presence of baryons affects the dark matter host haloes. Exploring t...
We use the high resolution cosmological N-body simulations from the Aquarius project to investigate ...
We use the high resolution cosmological N-body simulations from the Aquarius project to investigate ...
We use the high resolution cosmological N-body simulations from the Aquarius project to investigate ...
We use the high-resolution cosmological N-body simulations from the Aquarius project to investigate ...
We present a detailed analysis of dark matter halo shapes, studying how the distributions of ellipti...
We present a detailed analysis of dark matter halo shapes, studying how the distributions of ellipti...
International audienceIn this paper, we study the triaxial properties of dark matter haloes of a wid...
In this paper, we study the triaxial properties of dark matter haloes of a wide range of masses extr...
We have resimulated the six galaxy-sized haloes of the Aquarius Project including metaldependent coo...
We present shape measurements of Milky Way–sized dark matter haloes at redshift z = 0 in a suite of ...
We use zoom-in, hydrodynamical, cosmological N-body simulations tracing the formation of the first s...
We use N-body simulations to investigate the structure and dynamical evolution of dark matter haloes...
The balance of evidence indicates that individual galaxies and groups or clusters of galaxies are em...
Aims. It is well known that the presence of baryons affects the dark matter host haloes. Exploring t...
We use the high resolution cosmological N-body simulations from the Aquarius project to investigate ...
We use the high resolution cosmological N-body simulations from the Aquarius project to investigate ...
We use the high resolution cosmological N-body simulations from the Aquarius project to investigate ...
We use the high-resolution cosmological N-body simulations from the Aquarius project to investigate ...
We present a detailed analysis of dark matter halo shapes, studying how the distributions of ellipti...
We present a detailed analysis of dark matter halo shapes, studying how the distributions of ellipti...
International audienceIn this paper, we study the triaxial properties of dark matter haloes of a wid...
In this paper, we study the triaxial properties of dark matter haloes of a wide range of masses extr...
We have resimulated the six galaxy-sized haloes of the Aquarius Project including metaldependent coo...
We present shape measurements of Milky Way–sized dark matter haloes at redshift z = 0 in a suite of ...
We use zoom-in, hydrodynamical, cosmological N-body simulations tracing the formation of the first s...
We use N-body simulations to investigate the structure and dynamical evolution of dark matter haloes...
The balance of evidence indicates that individual galaxies and groups or clusters of galaxies are em...
Aims. It is well known that the presence of baryons affects the dark matter host haloes. Exploring t...