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A&A 420, 207-211 (2004)
DOI: 10.1051/0004-6361:20041178
Research Note
Galactic orbits of Planetary Nebulae unveil thin and thick disk populations and cast light on interaction with the interstellar medium
F. Kerber1, R. P. Mignani2, E.-M. Pauli3, A. Wicenec2 and F. Guglielmetti41 Space Telescope - European Coordinating Facility, Karl-Schwarzschild-Straße 2, 85748 Garching, Germany
2 European Southern Observatory, Karl-Schwarzschild-Str. 2, 85748, Garching, Germany
3 Dr.-Remeis-Sternwarte, Sternwartstraße 7, 96049 Bamberg, Germany
4 Max-Planck-Institut für Plasmaphysik, Boltzmannstrasse 2, 85748, Garching, Germany
(Received 6 February 2004 / Accepted 30 March 2004)
Abstract
We report reliable proper motion values for the
central stars of four Planetary Nebulae (PNe). The proper motions have
been compiled from existing optical catalogues i.e. Tycho-2, UCAC2,
USNO-B and GSC-II, which are the product of large scale
surveys. Results from the different sources have been compared and
excellent agreement has been found in all cases reported here. Using
known PNe distances and radial velocities, we then computed their
Galactic velocity components which, by using a simplified model of the
Galactic gravitational field, have allowed us to derive, for the first
time, their Galactic orbits. These have provided the first kinematic
evidence of the existence of thin and thick Galactic disk PNe
populations. This approach, extended to a larger sample of PNe,
will result in a statistically more solid basis. For our four individual
objects though, the determination of the spatial velocity
vector has already provided useful insights into their interaction with the
ambient interstellar medium (ISM), confirming that the
motion of the central star and the nebular shell through the ISM is
the root cause for the interaction process. Our results therefore
show how a more quantitative understanding of the
interaction process can be achieved in the future. This would provide new
insight into the return of metal enriched matter to the
ISM, which in turn is in no small part responsible for the chemical
evolution of galaxies.
Key words: Galaxy: kinematics and dynamics -- ISM: evolution -- ISM: planetary nebulae: individual: NGC 7293 -- ISM: planetary nebulae: individual: Sh 2-216 -- ISM: planetary nebulae: individual: IC 4593 -- ISM: planetary nebulae: individual: Sh 2-174
Offprint request: F. Kerber, florian.kerber@stecf.org
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© ESO 2004
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