In this work, we examine the different properties of galactic satellites in hydrodynamical and pure dark matter simulations. We use three pairs of simulations (collisional and collisionless) starting from identical initial conditions. We concentrate our analysis on pairs of satellites in the hydro and N-body runs that form from the same Lagrangian region. We look at the radial positions, mass-loss as a function of time and orbital parameters of these ââ¬Ëtwinââ¬â¢ satellites. We confirm an overall higher radial density of satellites in the hydrodynamical runs, but find that trends in the mass-loss and radial position of these satellites in the inner and outer region of the parent halo differ from the pure dark matter case. In the outs...
We investigate the dynamical mechanisms responsible for producing tidal tails from dwarf satellites ...
We investigate the properties of satellite galaxies formed in N-body/SPH simulations of galaxy forma...
N-body simulations were conducted of pairs of galaxies with a 3:1 mass ratio on parabolic orbits, in...
Aims. We study the distribution of the stellar and dark matter debris of the Milky Way satellites. M...
We analyse the dynamical and thermal evolution of dark matter and the intracluster medium in hydrod...
The orbital properties of infalling satellite haloes set the initial conditions which control the su...
Motivated by observations of inner halo satellite remnants like the Sgr stream and omega Centauri, w...
In my thesis, I research four consequences of satellite and dark matter halo interaction on galaxy f...
grantor: University of TorontoI perform fully self-consistent disk+halo+satellite N-body ...
We study the evolution of dark matter satellites orbiting inside more massive haloes using semi-anal...
We present a study of satellites in orbit around a high-resolution, smoothed particle hydrodynamics ...
We investigate the physical mechanisms of tidal heating and satellite disruption in cold dark matter...
Using high-resolution cosmological N-body simulations, we investigate the survival of dark matter sa...
Context. In recent years, high-quality observational data have allowed researchers to undertake an e...
We use N-body simulations to study the infall of dark matter haloes on to rich clusters of galaxies....
We investigate the dynamical mechanisms responsible for producing tidal tails from dwarf satellites ...
We investigate the properties of satellite galaxies formed in N-body/SPH simulations of galaxy forma...
N-body simulations were conducted of pairs of galaxies with a 3:1 mass ratio on parabolic orbits, in...
Aims. We study the distribution of the stellar and dark matter debris of the Milky Way satellites. M...
We analyse the dynamical and thermal evolution of dark matter and the intracluster medium in hydrod...
The orbital properties of infalling satellite haloes set the initial conditions which control the su...
Motivated by observations of inner halo satellite remnants like the Sgr stream and omega Centauri, w...
In my thesis, I research four consequences of satellite and dark matter halo interaction on galaxy f...
grantor: University of TorontoI perform fully self-consistent disk+halo+satellite N-body ...
We study the evolution of dark matter satellites orbiting inside more massive haloes using semi-anal...
We present a study of satellites in orbit around a high-resolution, smoothed particle hydrodynamics ...
We investigate the physical mechanisms of tidal heating and satellite disruption in cold dark matter...
Using high-resolution cosmological N-body simulations, we investigate the survival of dark matter sa...
Context. In recent years, high-quality observational data have allowed researchers to undertake an e...
We use N-body simulations to study the infall of dark matter haloes on to rich clusters of galaxies....
We investigate the dynamical mechanisms responsible for producing tidal tails from dwarf satellites ...
We investigate the properties of satellite galaxies formed in N-body/SPH simulations of galaxy forma...
N-body simulations were conducted of pairs of galaxies with a 3:1 mass ratio on parabolic orbits, in...