We present two-dimensional MHD numerical simulations for the interaction of high-velocity clouds with both magnetic and non-magnetic Galactic thick gaseous disks. For the magnetic models, the initial magnetic field is oriented parallel to the disk, and we consider two different field topologies (with and without tension effects): parallel and perpendicular to the plane of motion of the clouds. The impinging clouds move in oblique trajectories and fall toward the central disk with different initial velocities. The $B$-field lines are distorted and compressed during the collision, increasing the field pressure and tension. This prevents the cloud material from penetrating into the disk, and can even transform a high-velocity inflow into an ou...
We present results from three-dimensional numerical simulations investigating the magnetohydrodynami...
We study the effects of the magnetic fields on the formation of massive, self-gravitationally bound ...
Recently, a collision-induced magnetic reconnection (CMR) mechanism was proposed to explain a dense ...
We present 2D adiabatic magnetohydrodynamic (MHD) simulations of a shock inter-acting with groups of...
We performed computer simulations of interstellar cloud-cloud collisions using the three-dimensional...
We investigate giant molecular cloud collisions and their ability to induce gravitational instabilit...
We performed computer simulations of interstellar cloud-cloud collisions using the three-dimensional...
There exist many physical processes that may contribute to the driving of turbulence in galactic dis...
We investigate giant molecular cloud (GMCs) collisions and their ability to induce gravitational ins...
We study the effect of magnetic field on massive dense core formation in colliding unequal molecular...
We present three-dimensional magnetohydrodynamic simulations of magnetized gas clouds accelerated by...
We present an ideal MHD theory to describe for the first time the “magnetic barrier” (or “depletion ...
Throughout the passage within the Galactic halo, high-velocity clouds (HVCs) sweep up ambient magnet...
We utilize magnetohydrodynamic (MHD) simulations to develop a numerical model for giant molecular cl...
We present results from the first three-dimensional numerical simulations of moderately supersonic c...
We present results from three-dimensional numerical simulations investigating the magnetohydrodynami...
We study the effects of the magnetic fields on the formation of massive, self-gravitationally bound ...
Recently, a collision-induced magnetic reconnection (CMR) mechanism was proposed to explain a dense ...
We present 2D adiabatic magnetohydrodynamic (MHD) simulations of a shock inter-acting with groups of...
We performed computer simulations of interstellar cloud-cloud collisions using the three-dimensional...
We investigate giant molecular cloud collisions and their ability to induce gravitational instabilit...
We performed computer simulations of interstellar cloud-cloud collisions using the three-dimensional...
There exist many physical processes that may contribute to the driving of turbulence in galactic dis...
We investigate giant molecular cloud (GMCs) collisions and their ability to induce gravitational ins...
We study the effect of magnetic field on massive dense core formation in colliding unequal molecular...
We present three-dimensional magnetohydrodynamic simulations of magnetized gas clouds accelerated by...
We present an ideal MHD theory to describe for the first time the “magnetic barrier” (or “depletion ...
Throughout the passage within the Galactic halo, high-velocity clouds (HVCs) sweep up ambient magnet...
We utilize magnetohydrodynamic (MHD) simulations to develop a numerical model for giant molecular cl...
We present results from the first three-dimensional numerical simulations of moderately supersonic c...
We present results from three-dimensional numerical simulations investigating the magnetohydrodynami...
We study the effects of the magnetic fields on the formation of massive, self-gravitationally bound ...
Recently, a collision-induced magnetic reconnection (CMR) mechanism was proposed to explain a dense ...