Abstract. Distance to a group of dark clouds at moderate galactic latitudes Lynds 1147Lynds , 1148Lynds , 1152Lynds , 1155Lynds , 1157Lynds , 1158Lynds , 1167Lynds , 1168Lynds , 1170Lynds , 1171Lynds , 1172Lynds , 1173 and 1174 is estimated from the extinction Ay vs distance plot. This dependence is based on photometry of 79 stars down to V = 12.5 in the Vilnius photometric system and their twodimensional classification. The distance of the L1147/1158 group of clouds is found to be 325±13 pc and that of the L1167/1174 or NGC 7023 group of clouds is 288±25 pc. A number of stars with peculiar energy distribution has been found.
Abstract. The accuracy of new CCD photometry in the Vilnius system of the M 67 cluster is analyzed. The observational material is obtained during six observing runs in 1994-2001 with the 1 meter telescope of the USNO Flagstaff Station. The main task was to establish CCD standards of high accuracy and to eliminate large-scale errors from our CCD photometry. We compare our results with the published CCD photometric data in other photometric systems. The comparison reveals considerable systematic errors in some datasets.
The dust cloud TGU H645 P2 and embedded in it young open cluster NGC 7129 are investigated using the results of medium-band photometry of 159 stars in the Vilnius seven-colour system down to V = 18.8 mag. The photometric data were used to classify about 50 % of the measured stars in spectral and luminosity classes. The extinction A V vs. distance diagram for the 20 ′ × 20 ′ area is plotted for 155 stars with two-dimensional classification from the present and the previous catalogues. The extinction values found range between 0.6 and 3.4 mag. However, some red giants, located in the direction of the dense parts of the cloud, exhibit the infrared extinction equivalent up to A V = 13 mag. The distance to the cloud (and the cluster) is found to be 1.15 kpc (the true distance modulus 10.30 mag). For determining the age of NGC 7129, a luminosity vs. temperature diagram for six cluster members of spectral classes B3 to A1 was compared with the Pisa pre-main-sequence evolution tracks and the Palla birthlines. The cluster can be as old as about 3 Myr, but star forming continues till now as witnessed by the presence in the cloud of many younger pre-main-sequence objects identified with photometry from 2MASS, Spitzer and WISE infrared surveys.
The results of CCD photometry in the Vilnius seven-color system down to V = 18 mag are presented for 242 stars in the direction of the young open cluster IC 1805 that is located in the active star-forming region W4 in the Cas OB6 association. Photometric data were used to classify stars into spectral and luminosity classes, and to determine their interstellar reddenings, extinctions and distances. We confirm the CH 3 OH and H 2 O maser VLBA parallax results that the cluster is located close to the front side of the Perseus arm, at a distance about 2.0 kpc. In the color-magnitude diagram, zero-age main sequence (ZAMS) stars of the cluster extend to spectral class A0. The extinction values for the majority of the cluster stars are between 2.2 and 2.7 mag, with a mean value of 2.46 mag. This extinction originates mainly between the Sun and the outer edge of the Local arm, in accordance with the distribution of CO clouds. In the Perseus arm and beyond, the extinction was investigated using the classification and reddening determination for A0-F0 stars measured in the r, i, Hα system of the IPHAS survey to r = 19 mag. The extinction A V within the Perseus arm ranges from 2.5-4.5 mag at the front edge to 3.0-5.0 mag at the far edge. Possibly, we have found about 20 early A-type stars located in the Outer arm. The 2MASS JHK s photometry for red giants gives much higher extinction values (up to about 6 mag), which would correspond to the stars located behind dense clouds of both arms. In the area, using the WISE, 2MASS, and IPHAS photometry data, 18 possible young stellar objects (YSOs) of low masses are identified. Six high-mass YSOs (five Ae/Be stars and a F6e star) are known from previous investigations.
The European Gaia astrometry mission is due for launch in 2011. Gaia will
rely on the proven principles of ESA's Hipparcos mission to create an all-sky
survey of about one billion stars throughout our Galaxy and beyond, by
observing all objects down to 20th magnitude. Through its massive measurement
of stellar distances, motions and multi-colour photometry it will provide
fundamental data necessary for unravelling the structure, formation and
evolution of the Galaxy. This paper presents the design and performance of the
broad- and medium-band set of photometric filters adopted as the baseline for
Gaia. The nineteen selected passbands (extending from the ultraviolet to the
far-red), the criteria, and the methodology on which this choice has been based
are discussed in detail. We analyse the photometric capabilities for
characterizing the luminosity, temperature, gravity and chemical composition of
stars. We also discuss the automatic determination of these physical parameters
for the large number of observations involved, for objects located throughout
the entire Hertzsprung-Russell diagram. Finally, the capability of the
photometric system to deal with the main Gaia science case is outlined.Comment: MNRAS, accepted 1-Dec-2005; 26 pages, 15 figure
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