Add to ORKGUsing 2D nonlinear simulations, we study the generation and nonlinear evolution of spiral structure in a star-forming multi-component gravitating disk. We confirm in agreement with previous studies the destabilizing role of a cold gaseous component and extend this conclusion for multi-component star-forming disks exchanging mass and momentum between its components. We show that the spiral structure growing on a non-stationary multi-phase background reaches its saturation in a similar manner like the one-component disks. The spiral structure survives even if most of the gas is transformed into stellar remnants of larger velocity dispersion
We use hydrodynamic simulations to investigate the response of geometrically thin, self-gravitating,...
We describe simulations of the response of a gaseous disc to an active spiral potential. The potenti...
Tidal interactions between disc galaxies and low-mass companions are an established method for gener...
The authors present a linear study of the role of gas on global spiral modes in stellar disks using ...
We performed two-dimensional non-linear hydrodynamical simulations of two-component gravitating disk...
Context. Gravitational instabilities can drive small-scale turbulence and large-scale spiral arms in...
An algorithm for star formation and gas heating is included in numerical simulations of galaxy disks...
The dynamics of stars and gas appear markedly different in flocculent, tidally induced and quasi-sta...
The causes of spiral structure in galaxies remain uncertain. Leaving aside the grand bisymmetric spi...
We study the vertical perturbations in the galactic disc of the Milky Way-size high-resolution hydro...
We use observational gaseous and stellar density distributions in the disk of the Milky Way (MW) gal...
The Gaia DR2 revealed several substructures in the phase space of the Milky Way's disk, such as the ...
After almost fifty years the origin of spiral arms in disk galaxies remains one of the major unsolve...
International audienceAbstract We study the vertical perturbations in the galactic disc of the Milky...
We investigate the evolution of galactic discs in N-body tree-SPH simulations. We find that discs, i...
We use hydrodynamic simulations to investigate the response of geometrically thin, self-gravitating,...
We describe simulations of the response of a gaseous disc to an active spiral potential. The potenti...
Tidal interactions between disc galaxies and low-mass companions are an established method for gener...
The authors present a linear study of the role of gas on global spiral modes in stellar disks using ...
We performed two-dimensional non-linear hydrodynamical simulations of two-component gravitating disk...
Context. Gravitational instabilities can drive small-scale turbulence and large-scale spiral arms in...
An algorithm for star formation and gas heating is included in numerical simulations of galaxy disks...
The dynamics of stars and gas appear markedly different in flocculent, tidally induced and quasi-sta...
The causes of spiral structure in galaxies remain uncertain. Leaving aside the grand bisymmetric spi...
We study the vertical perturbations in the galactic disc of the Milky Way-size high-resolution hydro...
We use observational gaseous and stellar density distributions in the disk of the Milky Way (MW) gal...
The Gaia DR2 revealed several substructures in the phase space of the Milky Way's disk, such as the ...
After almost fifty years the origin of spiral arms in disk galaxies remains one of the major unsolve...
International audienceAbstract We study the vertical perturbations in the galactic disc of the Milky...
We investigate the evolution of galactic discs in N-body tree-SPH simulations. We find that discs, i...
We use hydrodynamic simulations to investigate the response of geometrically thin, self-gravitating,...
We describe simulations of the response of a gaseous disc to an active spiral potential. The potenti...
Tidal interactions between disc galaxies and low-mass companions are an established method for gener...