Bibcode
Vicente, B.; Abad, C.; Garzón, F.
Bibliographical reference
Astronomy and Astrophysics, Volume 471, Issue 3, September I 2007, pp.1077-1089
Advertised on:
9
2007
Journal
Citations
19
Refereed citations
13
Description
Context: The historic plates of the Carte du Ciel, an international
cooperative project launched in 1887, offers valuable first-epoch
material for determining of absolute proper motions. Aims: We
present an original method of digitizing and astrometrically reducing
Carte du Ciel plate material using an inexpensive flatbed scanner, to
demonstrate that for this material there is an alternative to more
specialized measuring machines that are very few in number and thus not
readily available. The sample of plates chosen to develop this method
are original Carte du Ciel plates of the San Fernando zone, photographic
material with a mean epoch 1903.6, and a limiting photographic magnitude
~14.5, covering the declination range of -10° ≤ δ ≤
-2°. Methods: Digitization has been made using a commercial
flatbed scanner, demonstrating the internal precision that can be
attained with such a device. A variety of post-scan corrections are
shown to be necessary. In particular, the large distortion introduced by
the non-uniform action of the scanner is modelled using multiple scans
of each plate. We also tackle the specific problems associated with the
triple-exposure images on some plates and the réseau grid lines
present on all. The final measures are reduced to celestial coordinates
using the Tycho-2 Catalogue. Results: The internal precision
obtained over a single plate, 3~μ m ˜ 0.18 arcsec in each axis,
is comparable to what is realized with similar plate material using
slower, less affordable, and less widely available conventional
measuring machines, such as a PDS microdensitometer. The accuracy
attained over large multi-plate areas, employing an overlapping plate
technique, is estimated at 0.2 arcsec. Conclusions: The
techniques presented here for digitizing photographic material provide a
fast and readily available option for the exploitation of old plate
collections. Our demonstration area, consisting of ~560 000 stars at an
average epoch of 1901.4, is presented as a practical example of the
developed scanning and reduction methods. These results are currently
being combined with modern astrometry to produce an absolute
proper-motion catalogue whose construction is underway.