TY - JOUR
T1 - Updated properties of the old open cluster Melotte 66
T2 - Searching for multiple stellar populations ***
AU - Carraro, Giovanni
AU - De Silva, Gayandhi
AU - Monaco, Lorenzo
AU - Milone, Antonino P.
AU - Mateluna, Renee
N1 - Funding Information:
G. Carraro acknowledges financial support from the Anglo Australian Observatory Distinguished Visitor Program and from the ESO Director General Discretionary Funds, that allowed a visit to AAO In February 2014, where most of this work was done. We warmly thank Russell Cannon and Sarah Martell for useful comments.
PY - 2014/6
Y1 - 2014/6
N2 - Context. Multiple generations of stars are routinely encountered in globular clusters but no convincing evidence has been found in Galactic open clusters to date. Aims. In this paper, we use new photometric and spectroscopic data to search for multiple stellar population signatures in the old, massive open cluster, Melotte 66. The cluster is known to have a red giant branch wide in color, which could be an indication of metallicity spread. Also the main sequence is wider than what is expected from photometric errors only. This evidence might be associated with either differential reddening or binaries. Both hypothesis have, however, to be evaluated in detail before recurring to the presence of multiple stellar populations. Methods. New, high-quality, CCD UBVI photometry have been acquired to this aim with high-resolution spectroscopy of seven clump stars that are complemented with literature data; this doubles the number of clump star members of the cluster for which high-resolution spectroscopy is available. All this new material is carefully analyzed in search for any spectroscopic or photometric manifestation of multiple populations among the cluster stars. Results. Our photometric study confirms that the width of the main sequence close to the turn off point is entirely accounted for by binary stars and differential reddening with no need to advocate more sofisticated scenarios, such as metallicity spread or multiple main sequences. By constructing synthetic color-magnitude diagrams, we infer that the binary fraction has to be as large as 30% and their mass ratio in the range 0.6-1.0. As a by-product of our simulations, we provide new estimates of the cluster fundamental parameters. We measure a reddening E(B - V) = 0.15 ± 0.02, and confirm the presence of a marginal differential reddening. The distance to the cluster is 4.7-0.1+0.2 kpc and the age is 3.4 ± 0.3 Gyr, which is somewhat younger and better constrained than previous estimates. Conclusions. Our detailed abundance analysis reveals that, overall, Melotte 66 looks like a typical object of the old thin disk population with no significant spread in any of the chemical species we could measure. Finally, we perform a photometric study of the blue straggler star population and argue that their number in Melotte 66 has been significantly overestimated in the past. The analysis of their spatial distribution supports the scenario that they are most probably primordial binaries.
AB - Context. Multiple generations of stars are routinely encountered in globular clusters but no convincing evidence has been found in Galactic open clusters to date. Aims. In this paper, we use new photometric and spectroscopic data to search for multiple stellar population signatures in the old, massive open cluster, Melotte 66. The cluster is known to have a red giant branch wide in color, which could be an indication of metallicity spread. Also the main sequence is wider than what is expected from photometric errors only. This evidence might be associated with either differential reddening or binaries. Both hypothesis have, however, to be evaluated in detail before recurring to the presence of multiple stellar populations. Methods. New, high-quality, CCD UBVI photometry have been acquired to this aim with high-resolution spectroscopy of seven clump stars that are complemented with literature data; this doubles the number of clump star members of the cluster for which high-resolution spectroscopy is available. All this new material is carefully analyzed in search for any spectroscopic or photometric manifestation of multiple populations among the cluster stars. Results. Our photometric study confirms that the width of the main sequence close to the turn off point is entirely accounted for by binary stars and differential reddening with no need to advocate more sofisticated scenarios, such as metallicity spread or multiple main sequences. By constructing synthetic color-magnitude diagrams, we infer that the binary fraction has to be as large as 30% and their mass ratio in the range 0.6-1.0. As a by-product of our simulations, we provide new estimates of the cluster fundamental parameters. We measure a reddening E(B - V) = 0.15 ± 0.02, and confirm the presence of a marginal differential reddening. The distance to the cluster is 4.7-0.1+0.2 kpc and the age is 3.4 ± 0.3 Gyr, which is somewhat younger and better constrained than previous estimates. Conclusions. Our detailed abundance analysis reveals that, overall, Melotte 66 looks like a typical object of the old thin disk population with no significant spread in any of the chemical species we could measure. Finally, we perform a photometric study of the blue straggler star population and argue that their number in Melotte 66 has been significantly overestimated in the past. The analysis of their spatial distribution supports the scenario that they are most probably primordial binaries.
KW - Galaxy: disk
KW - Open clusters and associations: general
KW - Stars: abundances
UR - http://www.scopus.com/inward/record.url?scp=84902159432&partnerID=8YFLogxK
U2 - 10.1051/0004-6361/201423714
DO - 10.1051/0004-6361/201423714
M3 - Article
AN - SCOPUS:84902159432
SN - 0004-6361
VL - 566
JO - Astronomy and Astrophysics
JF - Astronomy and Astrophysics
M1 - A39
ER -