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Ages for large samples of stars - caveats and uncertainties

Published online by Cambridge University Press:  02 August 2018

Arlette Noels-Grötsch*
Affiliation:
Space sciences, Technologies and Astrophysics Research (STAR) Institute, Université de Liège, Quartier Agora, Allée du 6 Août 19c, Bât. B5C, B4000-Liège, Belgium email: [email protected]
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Abstract

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Although a stellar age accuracy of about 10 % seems to be a reasonable requirement to draw a time line in the evolution of our Galaxy as well as in the formation and evolution of exo-planetary systems, theoretical stellar models are at present still too imperfect to really achieve this goal. Asteroseismic observations are definitely of invaluable assistance, especially if individual pulsation frequencies are available, which is still far from common. Large stellar samples are now in the spotlight with two different lines of attack, spectroscopic and photometric surveys as well as asteroseismic missions. I shall review the problems arising from stellar physics in the context of large stellar samples of main sequence and red giant stars, and I shall raise some alarm bells but also highlight some positive news for a drastic improvement in stellar age determinations below the limit of 10 % in a foreseeable future.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2018 

References

Brown, T. M., Gilliland, R. L., Noyes, R. W. et al. 1991, ApJ, 368, 599Google Scholar
Casagrande, L., Silva Aguirre, V., Schlesinger, K. J. et al. 2016, MNRAS, 455, 987Google Scholar
Chaplin, W. J., Basu, S., Huber, D. et al. 2014, ApJS, 210, 1Google Scholar
Claret, A. & Torres, G. 2016, A&A, 592, A15Google Scholar
Deheuvels, S., Brandăo, I., Silva Aguirre, V. et al. 2015, A&A, 589, A93Google Scholar
De Ridder, J., Barban, C., Baudin, F. et al. 2009, Nature, 459, 398Google Scholar
Dotter, A., Conroy, C., Cargile, P. et al. 2017, ApJ, 840, 99Google Scholar
Gai, N., Basu, S., Chaplin, W. J. et al. 2011, ApJ, 730, 63Google Scholar
Girardi, L., Barbieri, M., & Groenewegen, M. A. T.. et al. 2012, in: Miglio, A., Montalbán, J. & Noels, A. (eds) Red Giants as Probes of the Structure and Evolution of the Milky Way (Ap&SSP, Vol. 26), p. 165Google Scholar
Gruyters, P., Korn, A. J., Richard, O. et al. 2013, A&A, 555, 31Google Scholar
Heyl, J., Kalirai, J., Richer, H. B. et al. 2015, ApJ, 810, 127Google Scholar
Kjeldsen, H. & Bedding, T. R. 1995, A&A, 293, 87Google Scholar
Lebreton, Y. & Goupil, M. J. 2014, A&A, 569, A21Google Scholar
Lebreton, Y., Goupil, M. J., & Montalban, J. 2014, in: Lebreton, Y., Valls-Gabaud, D. & Charbonnel, C. (eds.), The Ages of Stars (EAS Publications Seris, Vol. 65), p. 177Google Scholar
Metcalfe, T. S., Creevey, O. L., Doğan, G. et al. 2014, ApJS, 214, 27Google Scholar
Miglio, A. 2012, in: Miglio, A., Montalbán, J. & Noels, A. (eds) Red Giants as Probes of the Structure and Evolution of the Milky Way (Ap&SSP, Vol. 26), p. 11Google Scholar
Miglio, A., Chiappini, C., Morel, T. et al. 2012, MNRAS, 419, 2077Google Scholar
Miglio, A., Brogaard, K., Stello, D. et al. 2013, MNRAS, 423, 428Google Scholar
Miglio, A., Chiappini, C., Mosser, B. et al. 2017, AN submittedGoogle Scholar
Noels, A., & Montalbán, J., Chiappini, C. 2016, AN, 337, 982Google Scholar
Origlia, L., Ferraro, F. R., Fabbri, S. et al. 2014, A&A, 564, A136Google Scholar
Reimers, D. 1975, Mem. Soc. R. Liège, 8, 369Google Scholar
Salaris, M. 2016, AN, 337, 805Google Scholar
Silva Aguirre, V., Basu, S., & Brandão, I. M. et al. 2013, ApJ, 769, 141Google Scholar
Silva Aguirre, V., Davies, G. R., Basu, S. et al. 2015, MNRAS, 452, 2127Google Scholar
Stello, D., Chaplin, W. J., Bruntt, H. et al. 2009; ApJ, 700, 1589Google Scholar
Valle, G., Dell’Omodarme, M., Prada Moroni, P. G. et al. 2015, A&A 575, A12Google Scholar