Using N-body simulations we study the buckling instability in a galactic bar forming in a Milky Way-like galaxy. The galaxy is initially composed of an axisymmetric, exponential stellar disk embedded in a spherical dark matter halo. The parameters of the model are chosen so that the galaxy is mildly unstable to bar formation and the evolution is followed for 10 Gyr. A strong bar forms slowly over the first few gigayears and buckles after 4.5 Gyr from the start of the simulation becoming much weaker and developing a pronounced boxy/peanut shape. We measure the properties of the bar at the time of buckling in terms of the mean acceleration, velocity, and distortion in the vertical direction. The maps of these quantities in face-on projections...
We use high-resolution collisionless N-body simulations to study the secular evolution of disk galax...
We analyse the outputs of the cosmological ‘zoom-in’ hydrodynamical simulation ErisBH to study a str...
International audienceUsing N-body simulations, we study the formation and evolution of tidally indu...
Using N-body simulations we study the buckling instability in a galactic bar forming in a Milky Way-...
Strong galactic bars produced in simulations tend to undergo a period of buckling instability that w...
By using N-body and hydro simulations, we study the formation and evolution of bars in galaxies with...
Young stellar bars in disk galaxies experience a vertical buckling instability which terminates thei...
International audienceOver half of disk galaxies are barred, yet the mechanisms for bar formation an...
Simulations have shown that bars are subject to a vertical buckling instability that transforms thin...
We present a high-resolution numerical study of the phase-space diversity in an isolated Milky Way-t...
International audienceWe present a high-resolution numerical study of the phase-space diversity in a...
Evolution of stellar bars in disk galaxies is accompanied by dynamical instabilities and secular cha...
International audienceUsing N-body simulations, we study the properties of a bar induced in a discy ...
The majority of massive disk galaxies, including our own, have stellar bars with vertically thick in...
We use high-resolution collisionless N-body simulations to study the secular evolution of disk galax...
We use high-resolution collisionless N-body simulations to study the secular evolution of disk galax...
We analyse the outputs of the cosmological ‘zoom-in’ hydrodynamical simulation ErisBH to study a str...
International audienceUsing N-body simulations, we study the formation and evolution of tidally indu...
Using N-body simulations we study the buckling instability in a galactic bar forming in a Milky Way-...
Strong galactic bars produced in simulations tend to undergo a period of buckling instability that w...
By using N-body and hydro simulations, we study the formation and evolution of bars in galaxies with...
Young stellar bars in disk galaxies experience a vertical buckling instability which terminates thei...
International audienceOver half of disk galaxies are barred, yet the mechanisms for bar formation an...
Simulations have shown that bars are subject to a vertical buckling instability that transforms thin...
We present a high-resolution numerical study of the phase-space diversity in an isolated Milky Way-t...
International audienceWe present a high-resolution numerical study of the phase-space diversity in a...
Evolution of stellar bars in disk galaxies is accompanied by dynamical instabilities and secular cha...
International audienceUsing N-body simulations, we study the properties of a bar induced in a discy ...
The majority of massive disk galaxies, including our own, have stellar bars with vertically thick in...
We use high-resolution collisionless N-body simulations to study the secular evolution of disk galax...
We use high-resolution collisionless N-body simulations to study the secular evolution of disk galax...
We analyse the outputs of the cosmological ‘zoom-in’ hydrodynamical simulation ErisBH to study a str...
International audienceUsing N-body simulations, we study the formation and evolution of tidally indu...