Most galaxies have a warped shape when they are seen edge-on. The reason for this curious form is not completely known so far, so in this work we apply dynamical system tools to contribute to its explanation. Starting from a simple, but realistic model formed by a bar and a disc, we study the effect of a small misalignment between the angular momentum of the system and its angular velocity. To this end, a precession model was developed and considered, assuming that the bar behaves like a rigid body. After checking that the periodic orbits inside the bar continue to be the skeleton of the inner system even after inflicting a precession to the potential, we computed the invariant manifolds of the unstable periodic orbits departing from the eq...
We establish a dynamical mechanism to explain the origin of the asymmetry between the arms observed ...
In a series of papers we proposed a theory to explain the formation and properties of rings and spir...
In this thesis, we study the relationship between the angular momentum and shape of galactic disks, ...
Most galaxies have a warped shape when they are seen edge-on. The reason for this curious form is no...
In this work we explore the origin of the Galactic warp, which is a deformation of the Galactic disc...
24 pages, 11 figures, invited review, 2004 DDA meeting in Cannes, april 19-23, Celestial Mechanics &...
Most galaxies have a warped shape when they are seen from an edge-on point of view. In this work we ...
Some 30 % of disc galaxies have a pronounced central bar feature in the disc plane and many more hav...
In a cosmological setting, the disk of a galaxy is expected to continuously experience gravitational...
Observations and simulations of barred spiral galaxies have shown that, in general, the spiral arms ...
The Restricted Three Body problem is a basic model in celestial mechanics and it has been extensivel...
Context. Observational data indicate that the Milky Way is a barred spiral galaxy. Computation facil...
We study the bar-driven dynamics in the inner part of the Milky Way by using invariant manifolds. Th...
In this and in a previous paper of 2006 [Romero-Gómez et al. 2006, A&A, 453, 39], we propose a theor...
A galaxy disk embedded in a rotating halo experiences a dynamical friction force which causes it to ...
We establish a dynamical mechanism to explain the origin of the asymmetry between the arms observed ...
In a series of papers we proposed a theory to explain the formation and properties of rings and spir...
In this thesis, we study the relationship between the angular momentum and shape of galactic disks, ...
Most galaxies have a warped shape when they are seen edge-on. The reason for this curious form is no...
In this work we explore the origin of the Galactic warp, which is a deformation of the Galactic disc...
24 pages, 11 figures, invited review, 2004 DDA meeting in Cannes, april 19-23, Celestial Mechanics &...
Most galaxies have a warped shape when they are seen from an edge-on point of view. In this work we ...
Some 30 % of disc galaxies have a pronounced central bar feature in the disc plane and many more hav...
In a cosmological setting, the disk of a galaxy is expected to continuously experience gravitational...
Observations and simulations of barred spiral galaxies have shown that, in general, the spiral arms ...
The Restricted Three Body problem is a basic model in celestial mechanics and it has been extensivel...
Context. Observational data indicate that the Milky Way is a barred spiral galaxy. Computation facil...
We study the bar-driven dynamics in the inner part of the Milky Way by using invariant manifolds. Th...
In this and in a previous paper of 2006 [Romero-Gómez et al. 2006, A&A, 453, 39], we propose a theor...
A galaxy disk embedded in a rotating halo experiences a dynamical friction force which causes it to ...
We establish a dynamical mechanism to explain the origin of the asymmetry between the arms observed ...
In a series of papers we proposed a theory to explain the formation and properties of rings and spir...
In this thesis, we study the relationship between the angular momentum and shape of galactic disks, ...