Post-AGB stars are key objects for the study of the dramatic morphological changes of low- to intermediate-mass stars on their evolution from the Asymptotic Giant Branch (AGB) towards the Planetary Nebula stage. There is growing evidences that binary interaction processes may very well have a determining role in the shaping process of many objects, but so far direct evidence is still weak. We aim at a systematic study of the dust distribution around a large sample of Post-AGB stars as a probe of the symmetry breaking in the nebulae around these systems. We used imaging in the mid-infrared to study the inner part of these evolved stars to probe direct emission from dusty structures in the core of Post-AGB stars in order to better understand ...
It is commonly accepted that asymmetries found in the post-AGB stars and planetary nebulae should or...
It is commonly accepted that asymmetries found in the post-AGB stars and planetary nebulae should or...
Context. Recent studies show that more than 70% of massive stars do not evolve as effectively single...
Post-AGB stars are key objects for the study of the dramatic morphological changes of low- to interm...
Post-AGB stars are key objects for the study of the dramatic morphological changes of low- to interm...
Post-AGB stars are key objects for the study of the dramatic morphological changes of low- to interm...
Post-AGB stars are key objects for the study of the dramatic morphological changes of low- to interm...
The definitive version can be found at: http://onlinelibrary.wiley.com/ Copyright Royal Astronomical...
The transition from Asymptotic Giant Branch (AGB) star to Planetary Nebula is a short lived and myst...
The transition from Asymptotic Giant Branch (AGB) star to Planetary Nebula is a short lived and myst...
Context. The onset of the asymmetry of planetary nebulae (PNe) is expected to occur during...
The transition from Asymptotic Giant Branch (AGB) star to Planetary Nebula is a short lived and myst...
The evolution of low- and intermediate-mass stars (1M(⊙) - 8M(⊙)) from the Asymptotic Giant Branch (...
It is commonly accepted that asymmetries found in the post-AGB stars and planetary nebulae should or...
It is commonly accepted that asymmetries found in the post-AGB stars and planetary nebulae should or...
It is commonly accepted that asymmetries found in the post-AGB stars and planetary nebulae should or...
It is commonly accepted that asymmetries found in the post-AGB stars and planetary nebulae should or...
Context. Recent studies show that more than 70% of massive stars do not evolve as effectively single...
Post-AGB stars are key objects for the study of the dramatic morphological changes of low- to interm...
Post-AGB stars are key objects for the study of the dramatic morphological changes of low- to interm...
Post-AGB stars are key objects for the study of the dramatic morphological changes of low- to interm...
Post-AGB stars are key objects for the study of the dramatic morphological changes of low- to interm...
The definitive version can be found at: http://onlinelibrary.wiley.com/ Copyright Royal Astronomical...
The transition from Asymptotic Giant Branch (AGB) star to Planetary Nebula is a short lived and myst...
The transition from Asymptotic Giant Branch (AGB) star to Planetary Nebula is a short lived and myst...
Context. The onset of the asymmetry of planetary nebulae (PNe) is expected to occur during...
The transition from Asymptotic Giant Branch (AGB) star to Planetary Nebula is a short lived and myst...
The evolution of low- and intermediate-mass stars (1M(⊙) - 8M(⊙)) from the Asymptotic Giant Branch (...
It is commonly accepted that asymmetries found in the post-AGB stars and planetary nebulae should or...
It is commonly accepted that asymmetries found in the post-AGB stars and planetary nebulae should or...
It is commonly accepted that asymmetries found in the post-AGB stars and planetary nebulae should or...
It is commonly accepted that asymmetries found in the post-AGB stars and planetary nebulae should or...
Context. Recent studies show that more than 70% of massive stars do not evolve as effectively single...