Add to ORKGWe review work on the evolution of planetary nebulae and proto-planetaries via magneto-rotational mechanisms showing that a dynamo generated magnetic field can produce the energy and momentum needed to drive pPN and PNe outflows. Angular momentum considerations lead to the conclusion that single stars may not be capable of supporting strong fields for long times. Thus we take the working hypothesis that most PN may form via binary stars. We propose that the grand challenge for PN studies is fully understanding the diverse physical processes at work in binary late stage evolution including the development of disks, fields and outflows
Considerable effort has been applied towards understanding the precise shaping mechanisms responsibl...
Our understanding of planetary nebulae has been significantly enhanced as a result of several recent...
Stars with a mass up to a few solar masses are one of the main contributors to the enrichment of the...
Hydrodynamical simulations played an important role in understanding the dynamics and shaping of pla...
Astrophysical outflows treated initially as spherically symmetric often show evidence for asymmetry ...
MHD winds can emanate from both stars and surrounding disks. When the two systems are coupled by acc...
Proceedings of the International Astronomical Union, 2008, v. 4 n. S252, p. 197-203Planetary nebulae...
A significant fraction of planetary nebulae (PNe) and proto-planetary nebulae (PPNe) exhibit aspheri...
We present recent results of two topical problems on dynamical evolution of Planetary Nebulae (PNe) ...
Original paper can be found at: http://www.astrosociety.org/pubs/cs/309.html--Copyright Astronomical...
We present ESO NTT high resolution echelle spectroscopy of the central stars (CSs) of eight southern...
Winds from accretion disks have been proposed as the driving source for precessing jets and extreme ...
Only a handful of binary central stars of planetary nebulae (PNe) are known today, due to the diffic...
We present a population synthesis calculation to derive the total number of planetary nebulae (PN) i...
We present results of a series of magnetohydrodynamic (MHD) and hydrodynamic (HD) 2.5 dimensional si...
Considerable effort has been applied towards understanding the precise shaping mechanisms responsibl...
Our understanding of planetary nebulae has been significantly enhanced as a result of several recent...
Stars with a mass up to a few solar masses are one of the main contributors to the enrichment of the...
Hydrodynamical simulations played an important role in understanding the dynamics and shaping of pla...
Astrophysical outflows treated initially as spherically symmetric often show evidence for asymmetry ...
MHD winds can emanate from both stars and surrounding disks. When the two systems are coupled by acc...
Proceedings of the International Astronomical Union, 2008, v. 4 n. S252, p. 197-203Planetary nebulae...
A significant fraction of planetary nebulae (PNe) and proto-planetary nebulae (PPNe) exhibit aspheri...
We present recent results of two topical problems on dynamical evolution of Planetary Nebulae (PNe) ...
Original paper can be found at: http://www.astrosociety.org/pubs/cs/309.html--Copyright Astronomical...
We present ESO NTT high resolution echelle spectroscopy of the central stars (CSs) of eight southern...
Winds from accretion disks have been proposed as the driving source for precessing jets and extreme ...
Only a handful of binary central stars of planetary nebulae (PNe) are known today, due to the diffic...
We present a population synthesis calculation to derive the total number of planetary nebulae (PN) i...
We present results of a series of magnetohydrodynamic (MHD) and hydrodynamic (HD) 2.5 dimensional si...
Considerable effort has been applied towards understanding the precise shaping mechanisms responsibl...
Our understanding of planetary nebulae has been significantly enhanced as a result of several recent...
Stars with a mass up to a few solar masses are one of the main contributors to the enrichment of the...