We compare N-body simulations of isolated galaxies performed in both frameworks of modified Newtonian dynamics (MOND) and Newtonian gravity with dark matter (DM). We have developed a multigrid code able to efficiently solve the modified Poisson equation derived from the Lagrangian formalism AQUAL. We take particular care of the boundary conditions that are a crucial point in MOND. The 3-dimensional dynamics of initially identical stellar discs is studied in both models. In Newtonian gravity the live DM halo is chosen to fit the rotation curve of the MOND galaxy. For the same value of the Toomre parameter (Q_T), galactic discs in MOND develop a bar instability sooner than in the DM model. In a second phase the MOND bars weaken while the DM b...
We present a novel solver for an analogue to Poisson's equation in the framework of modified Newtoni...
The N-body dark matter (DM) simulations point that DM density profiles, e.g. the Navarro Frenk White...
General analytic arguments lead us to expect that in the modified dynamics (MOND) self-gravitating d...
We compare N-body simulations of isolated galaxies performed in both frameworks of modified Newtonia...
International audienceThe stability of spiral galaxies is compared in modified Newtonian Dynamics (M...
The cold dark matter paradigm has been extremely successful for explaining a wide range of cosmologi...
In this thesis Modified Newtonian Dynamics (MOND) is explored in galaxy clusters similar to the Virg...
International audienceWhen bars form within galaxy formation simulations in the standard cosmologica...
Modified Newtonian dynamics (MOND) is an empirical theory originally proposed to explain the rotatio...
Galaxies are natural laboratories for testing fundamental physics on the nature of the dark matter. ...
Modified Newtonian dynamics (MOND) is an empirically motivated modification of Newtonian gravity or ...
Funding: MB and HSZ are thankful for the financial support by Cercle Gutenberg. MB acknowledges the ...
Modified Newtonian dynamics (MOND) is an empirically motivated modification of Newtonian gravity or ...
Context. The departures from Newtonian dynamics based on the mass-follows-light approach discovered ...
We present a novel solver for an analogue to Poisson's equation in the framework of modified Newtoni...
The N-body dark matter (DM) simulations point that DM density profiles, e.g. the Navarro Frenk White...
General analytic arguments lead us to expect that in the modified dynamics (MOND) self-gravitating d...
We compare N-body simulations of isolated galaxies performed in both frameworks of modified Newtonia...
International audienceThe stability of spiral galaxies is compared in modified Newtonian Dynamics (M...
The cold dark matter paradigm has been extremely successful for explaining a wide range of cosmologi...
In this thesis Modified Newtonian Dynamics (MOND) is explored in galaxy clusters similar to the Virg...
International audienceWhen bars form within galaxy formation simulations in the standard cosmologica...
Modified Newtonian dynamics (MOND) is an empirical theory originally proposed to explain the rotatio...
Galaxies are natural laboratories for testing fundamental physics on the nature of the dark matter. ...
Modified Newtonian dynamics (MOND) is an empirically motivated modification of Newtonian gravity or ...
Funding: MB and HSZ are thankful for the financial support by Cercle Gutenberg. MB acknowledges the ...
Modified Newtonian dynamics (MOND) is an empirically motivated modification of Newtonian gravity or ...
Context. The departures from Newtonian dynamics based on the mass-follows-light approach discovered ...
We present a novel solver for an analogue to Poisson's equation in the framework of modified Newtoni...
The N-body dark matter (DM) simulations point that DM density profiles, e.g. the Navarro Frenk White...
General analytic arguments lead us to expect that in the modified dynamics (MOND) self-gravitating d...