We describe the public ESO near-IR variability survey (VVV) scanning the Milky Way bulge and an adjacent section of the mid-plane where star formation activity is high. The survey will take 1929 h of observations with the 4-m VISTA telescope during 5 years (2010-2014), covering ˜109 point sources across an area of 520 deg2, including 33 known globular clusters and ˜350 open clusters. The final product will be a deep near-IR atlas in five passbands (0.9-2.5 μm) and a catalogue of more than 106 variable point sources. Unlike single-epoch surveys that, in most cases, only produce 2-D maps, the VVV variable star survey will enable the construction of a 3-D map of the surveyed region using well-understood distance indicators such as RR Lyrae stars, and Cepheids. It will yield important information on the ages of the populations. The observations will be combined with data from MACHO, OGLE, EROS, VST, Spitzer, HST, Chandra, INTEGRAL, WISE, Fermi LAT, XMM-Newton, GAIA and ALMA for a complete understanding of the variable sources in the inner Milky Way. This public survey will provide data available to the whole community and therefore will enable further studies of the history of the Milky Way, its globular cluster evolution, and the population census of the Galactic Bulge and center, as well as the investigations of the star forming regions in the disk. The combined variable star catalogues will have important implications for theoretical investigations of pulsation properties of stars
Abstract. We present a new determination of the metallicity distribution, age, and luminosity function of the Galactic bulge stellar population. By combining near-IR data from the 2MASS survey, from the SOFI imager at ESO NTT and the NICMOS camera on board HST we were able to construct color-magnitude diagrams (CMD) and luminosity functions (LF) with large statistics and small photometric errors from the Asymptotic Giant Branch (AGB) and Red Giant Branch (RGB) tip down to ∼0.15 M . This is the most extended and complete LF so far obtained for the galactic bulge. Similar near-IR data for a disk control field were used to decontaminate the bulge CMDs from foreground disk stars, and hence to set a stronger constraint on the bulge age, which we found to be as large as that of Galactic globular clusters, or > ∼ 10 Gyr. No trace is found for any younger stellar population. Synthetic CMDs have been constructed to simulate the effect of photometric errors, blending, differential reddening, metallicity dispersion and depth effect in the comparison with the observational data. By combining the near-IR data with optical ones, from the Wide Field Imager at the ESO/MPG 2.2 m telescope, a disk-decontaminated (M K ,V-K) CMD has been constructed and used to derive the bulge metallicity distribution, by comparison with empirical RGB templates. The bulge metallicity is found to peak at near solar value, with a sharp cutoff just above solar, and a tail towards lower metallicity that does not appreciably extend below [M/H] ∼ −1.5.
We update the SMC, Bridge, and LMC catalogues of extended objects that were
constructed by members of our group from 1995 to 2000. In addition to the rich
subsequent literature for the previous classes, we now also include HI shells
and supershells. A total of 9305 objects were cross-identified, while our
previous catalogues amounted to 7900 entries, an increase of $\approx12%$. We
present the results in subcatalogues containing 1445 emission nebulae, 3740
star clusters, 3326 associations, and 794 HI shells and supershells. Angular
and apparent size distributions of the extended objects are analysed. We
conclude that the objects, in general, appear to respond to tidal effects
arising from the LMC, SMC, and Bridge. Number-density profiles extracted along
directions parallel and perpendicular to the LMC bar, can be described by two
exponential-disks. A single exponential-disk fits the equivalent SMC profiles.
Interestingly, when angular-averaged number-densities of most of the extended
objects are considered, the profiles of both Clouds do not follow an
exponential-disk. Rather, they are best described by a tidally-truncated,
core/halo profile, despite the fact that the Clouds are clearly disturbed
disks. On the other hand, the older star clusters taken isolately, distribute
as an exponential disk. The present catalogue is an important tool for the
unambiguous identification of previous objects in current CCD surveys and to
establish new findings.Comment: 15 pages, 10 figures, MNRAS, accepte
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