Hostname: page-component-cd9895bd7-fscjk Total loading time: 0 Render date: 2024-12-23T11:54:32.820Z Has data issue: false hasContentIssue false

Large-Scale Surveys of Pulsating Stars for Studying Stellar Populations in the Inner Galaxy

Published online by Cambridge University Press:  02 August 2018

Noriyuki Matsunaga*
Affiliation:
Department of Astronomy, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Surveys of pulsating stars in the inner Galaxy have been very limited, but recent large-scale surveys are rapidly bringing us new samples of various kinds of variable stars and new insights into stellar populations therein. Because of the severe interstellar extinction along the Galactic disc, the stellar populations in the inner Galaxy are more easily observed in the infrared, but even in the infrared the interstellar extinction may cause a serious problem in revealing their accurate characteristics. Here we review recent discoveries of Cepheids and Miras, two kinds of luminous pulsating stars with period–luminosity relation, in the inner Galaxy.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2018 

References

Anderson, R. I., Ekström, S., Georgy, C., Meynet, G., Mowlavi, N., & Eyer, L. 2014, A&A, 564, A100Google Scholar
Anderson, R. I., Saio, H., Ekström, S., Georgy, C., & Meynet, G. 2016, A&A, 591, A8Google Scholar
Alonso-García, J., Dékány, I., Catelan, M., Contreras Ramos, R., Gran, F., Amigo, P., Leyton, P., & Minniti, D. 2015, AJ, 149, 99Google Scholar
Baade, W. 1956, PASP, 68, 5Google Scholar
Bensby, T., et al. 2013, A&A, 549, A147Google Scholar
Bhardwaj, A., et al. 2017, A&A, in press (arXiv:1707.03755)Google Scholar
Bland-Hawthorn, J. & Gerhard, O. 2016, ARA&A, 54, 529Google Scholar
Bono, G., Marconi, M., Cassisi, S., Caputo, F., Gieren, W., & Pietrzynski, G. 2005, ApJ, 621, 966Google Scholar
Catchpole, R. M., Whitelock, P. A., Feast, M. W., Hughes, S. M. G., Irwin, M., & Alard, C. 2016, MNRAS, 455, 2216Google Scholar
Chakrabarti, S., Saito, R., Quillen, A., Gran, F., Klein, C., & Blitz, L. 2015, ApJ (Letters) 802, L4Google Scholar
Chakrabarti, S., et al. 2017, ApJ, 844, 159Google Scholar
Clarkson, W. I., et al. 2011, ApJ, 735, 37Google Scholar
da Silva, R., et al. 2016, A&A, 586, A125Google Scholar
de Grijs, R. & Bono, G. 2016, ApJS, 227, 5Google Scholar
Deguchi, S., et al. 2004, PASJ, 56, 261Google Scholar
Dékány, I., Minniti, D., Catelan, M., Zoccali, M., Saito, R. K., Hempel, M., & Gonzalez, O. A. 2013, ApJ (Letters) 776, L19Google Scholar
Dékány, I., et al. 2015a, ApJ (Letters) 799, L11Google Scholar
Dékány, I., et al. 2015b, ApJ (Letters) 812, L29Google Scholar
Dong, H., et al. 2017, MNRAS, 471, 3617Google Scholar
Feast, M. W., Glass, I. S., Whitelock, P. A., & Catchpole, R. M. 1989, MNRAS, 241, 375Google Scholar
Feast, M. W. & Whitelock, P. A. 2014, IAUS, 298, 40Google Scholar
Feast, M. W. & Whitelock, P. A. 1997, MNRAS, 291, 683Google Scholar
Feast, M. W., Whitelock, P. A., & Menzies, J. W. 2006, MNRAS, 369, 791Google Scholar
Feast, M. W., Menzies, J. W., & Whitelock, P. A. 2013, MNRAS, 428, L36Google Scholar
Feast, M. W., Menzies, J. W., Matsunaga, N., & Whitelock, P. A. 2014, Nature, 509, 342Google Scholar
Fernie, J. D., Evans, N. R., Beattie, B., & Seager, S. 1995, Information Bulletin on Variable Stars, 4148, 1Google Scholar
Figer, D. F., Rich, R. M., Kim, S. S., Morris, M., & Serabyn, E. 2004, ApJ, 601, 319Google Scholar
Fiorentino, G., et al. 2017, A&A, 599, A125Google Scholar
Freedman, W. L., et al. 2001, ApJ, 553, 47Google Scholar
Genovali, K., et al. 2014, A&A, 566, A37Google Scholar
Genovali, K., et al. 2015, A&A, 580, A17Google Scholar
Glass, I. S. & Lloyd Evans, T. 1981, Nature, 291, 303Google Scholar
Glass, I. S., Matsumoto, S., Carter, B. S., & Sekiguchi, K. 2001, MNRAS, 321, 77Google Scholar
Gran, F., Minniti, D., Saito, R. K., Navarrete, C., Dékány, I., McDonald, I., Contrares, R. R., & Catelan, M. 2015, A&A, 575, A114Google Scholar
Gran, F., et al. 2016, A&A, 591, A145Google Scholar
Habing, H. J. 1996, A&AR, 7, 97Google Scholar
Huxor, A. P. & Grebel, E. K. 2015, MNRAS, 453, 2653Google Scholar
Iben, I. J.r. & Renzini, A. 1983, ARA&A, 21, 271Google Scholar
Ishihara, D., Kaneda, H., Onaka, T., Ita, Y., Matsuura, M., & Matsunaga, N. 2011, A&A, 534, A79Google Scholar
Jones, C., Dickey, J. M., Dawson, J. R., McClure-Griffiths, N. M., Anderson, L. D., & Bania, T. M. 2013, ApJ, 774, 117Google Scholar
Launhardt, R., Zylka, R., & Mezger, P. G. 2002, A&A, 384, 112Google Scholar
Lindqvist, M., Habing, H. J., & Winnberg, A. 1992, A&A, 259, 118Google Scholar
Majaess, D. J., Turner, D. G., & Lane, D. J. 2009, MNRAS, 398, 263Google Scholar
Marigo, P., Bressan, A., Nanni, A., Girardi, L., & Pumo, M. L. 2013, MNRAS, 434, 488Google Scholar
Matsunaga, N., Kawadu, T., Nishiyama, S., Nagayama, T., Hatano, H., Tamura, M., Glass, I. S., & Nagata, T. 2009, MNRAS, 399, 1709Google Scholar
Matsunaga, N., Kawadu, T., Nishiyama, S., et al. 2011, Nature, 188, 477Google Scholar
Matsunaga, N. 2012, Journal of Physics: Conference Series, 372, 12026Google Scholar
Matsunaga, N. 2013, IAUS, 289, 109Google Scholar
Matsunaga, N., Feast, M. W., Kawadu, T., et al. 2013, MNRAS, 429, 385Google Scholar
Matsunaga, N., Fukue, K., Yamamoto, R., et al. 2015, ApJ, 799, 46Google Scholar
Matsunaga, N., Feast, M. W., Bono, G., et al. 2016, MNRAS, 462, 414Google Scholar
Matsunaga, N. 2017, EPJ Web of Conferences, 152, 1007Google Scholar
Matsunaga, N., Menzies, J. W., Feast, M. W., Whitelock, P. W., Onozato, H., Barway, S., & Aydi, E. 2017, MNRAS, 469, 4949Google Scholar
Minniti, D., et al. 2010, New Astron., 15, 433Google Scholar
Minniti, D., Contreras Ramos, R., Zoccali, M., Rejkuba, M., Gonzalez, O. A., Valenti, E., & Gran, F. 2016, ApJ (Letters) 830, L14Google Scholar
Nishiyama, S., et al. 2006, ApJ, 638, 839Google Scholar
Nishiyama, S., Tamura, M., Hatano, H., Kato, D., Tanabé, T., Sugitani, K., & Nagata, T. 2009, ApJ, 696, 1407Google Scholar
Pietrukowicz, P., et al. 2012, ApJ, 750, 169Google Scholar
Pietrukowicz, P., et al. 2015a, ApJ, 811, 113Google Scholar
Pietrukowicz, P., et al. 2015b, ApJ (Letters) 813, L40Google Scholar
Pietrzyński, G., et al. 2012, Nature, 484, 75Google Scholar
Riess, A. G., et al. 2016, ApJ, 826, 56Google Scholar
Sanna, A., et al. 2014, ApJ, 781, 108Google Scholar
Serabyn, E. & Morris, M. 1996, Nature, 382, 602Google Scholar
Soszyński, I., et al. 2011, AcA, 61, 285Google Scholar
Soszyński, I., et al. 2013, AcA, 63, 21Google Scholar
Valenti, E. et al. 2016, A&A, 587, L6Google Scholar
Whitelock, P. A. & Feast, M. W. 2014, EAS Publications Series 67–68, 263Google Scholar
Whitelock, P. A., Feast, M. W., & van Leeuwen, L. 2008, MNRAS, 386, 313Google Scholar
Windmark, F., Lindegren, L., & Hobbs, D. 2011, A&A, 530, A76Google Scholar
Wood, P. R., Habing, H. J., & McGregor, P. J. 1998, A&A, 336, 925Google Scholar
Zoccali, M. et al. 2003, A&A, 399, 931Google Scholar