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Period–Luminosity Relations in the Local Group of Galaxies

Published online by Cambridge University Press:  06 February 2024

Igor Soszyński*
Affiliation:
Astronomical Observatory, University of Warsaw, Al. Ujazdowskie 4, 00-478 Warszawa, Poland
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Abstract

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Local Group galaxies, particularly the Large and Small Magellanic Clouds, have historically played and continue to play a unique role in studies of the period–luminosity (PL), period–luminosity–color (PLC), and period–Wesenheit (PW) relations, not just for pulsating stars. In recent years, significant efforts have been devoted to calibrate the PL, PLC, and PW relationships at different wavelengths, including studies of the influence of metallicity and nonlinearities on the accuracy of measured distances. However, the PL diagram has many more astrophysical applications. It serves as a vital tool for classifying different types of pulsating stars and can even facilitate the discovery of new classes of variable stars. Moreover, it aids in distinguishing among various modes of pulsation, facilitates the identification of pulsating stars that are members of binary systems, and enables studies of the three-dimensional structures of neighboring galaxies. In this contribution, I present the latest results on the PL, PLC, and PW relations obeyed by various types of variable stars in Local Group galaxies – from δ Scuti stars to Mira variabless and from close binary systems to the mysterious long secondary periods exhibited by red giant and supergiant stars.

Type
Contributed Paper
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of International Astronomical Union

References

Alcock, C., et al. 1995, AJ, 109, 1653 Google Scholar
Anderson, R. I., Koblischke, N. W., & Eyer, L. 2023, arXiv:2303.04790Google Scholar
Arp, H. 1960, AJ, 65, 404 CrossRefGoogle Scholar
Baade, W. 1954, Trans. IAU, 8, 397 Google Scholar
Baade, W. 1956, PASP, 68, 5 CrossRefGoogle Scholar
Barac, N., Bedding, T. R., Murphy, S. J., & Hey, D. R 2022, MNRAS, 516, 2080 Google Scholar
Beaulieu, J. P., et al. 1995, A&A, 303, 137 CrossRefGoogle Scholar
Bhardwaj, A., Kanbur, S. M., Macri, L. M., Singh, H. P., Ngeow, C.-C., & Ishida, E. E. O 2016, MNRAS, 457, 1644 CrossRefGoogle Scholar
Bhardwaj, A., Macri, L. M., Rejkuba, M., Kanbur, S. M., Ngeow, C.-C., & Singh, H. P. 2017, AJ, 153, 154 CrossRefGoogle Scholar
Bhardwaj, A., et al. 2019, ApJ, 884, 20 CrossRefGoogle Scholar
Bhardwaj, A., et al. 2023, ApJL, 944, L51 Google Scholar
Bono, G., Caputo, F., Santolamazza, P., Cassisi, S., & Piersimoni, A. 1997, AJ, 113, 2209 Google Scholar
Bono, G., et al. 2019, ApJ, 870, 115 Google Scholar
Borissova, J., Rejkuba, M., Minniti, D., Catelan, M., & Ivanov, V. D. 2009, A&A, 502, 505 CrossRefGoogle Scholar
Braga, V. F., et al. 2016, AJ, 152, 170 Google Scholar
Breuval, L., et al. 2021, ApJ, 913, 38 CrossRefGoogle Scholar
Breuval, L., Riess, A. G., Kervella, P., Anderson, R. I., & Romaniello, M. 2022, ApJ, 939, 89 CrossRefGoogle Scholar
Breuval, L., et al. 2023, ApJ, 951, 118 Google Scholar
Chen, X., de Grijs, R., & Deng, L. 2016, ApJ, 832, 138 Google Scholar
Chen, X., Deng, L., de Grijs, R., Wang, S., & Feng, Y. 2018, ApJ, 859, 140 Google Scholar
Chown, A. H., Scowcroft, V., & Wuyts, S. 2021, MNRAS, 500, 817 CrossRefGoogle Scholar
Cioni, M.-R. L., et al. 2011, A&A, 527, A116 Google Scholar
Clementini, G., et al. 2019, A&A, 622, A60 Google Scholar
Clementini, G., et al. 2023, A&A, 674, A18 CrossRefGoogle Scholar
Cohen, R. E. & Sarajedini, A. 2012, MNRAS, 419, 342 Google Scholar
Connolly, L. P. 1980, PASP, 92, 165 Google Scholar
Cusano, F., et al. 2021, MNRAS, 504, 1 Google Scholar
Cutri, R. M., et al. 2003, The 2MASS All Sky Point Source Catalog, IPAC, Pasadena Google Scholar
Deb, S. & Singh, H. P. 2014, MNRAS, 438, 2440 Google Scholar
Deb, S., Ngeow, C.-C., Kanbur, S. M., Singh, H. P., Wysocki, D., & Kumar, S. 2018, MNRAS, 478, 2526 Google Scholar
Ferguson, P. S. & Strigari, L. E. 2020, MNRAS, 495, 4124 CrossRefGoogle Scholar
Garca-Varela, A., Sabogal, B. E., & Ramrez-Tannus, M. C. 2013, MNRAS, 431, 2278 CrossRefGoogle Scholar
Garg, A., et al. 2010, AJ, 140, 328 CrossRefGoogle Scholar
Gieren, W., et al. 2018, A&A, 620, A99 Google Scholar
Glass, I. S. & Evans, T. L. 1981, Nature, 291, 303 Google Scholar
Graczyk, D., et al. 2020, ApJ, 904, 13 Google Scholar
Grether, D. & Lineweaver, C. H. 2006, ApJ, 640, 1051 CrossRefGoogle Scholar
Groenewegen, M. A. T. & Jurkovic, M. I. 2017, A&A, 603, A70 Google Scholar
Groenewegen, M. A. T. 2018, A&A, 619, A8 CrossRefGoogle Scholar
Hertzsprung, E. 1913, Astron. Nachr., 196, 201 Google Scholar
Hinkle, K. H., Lebzelter, T., Joyce, R. R., & Fekel, F. C. 2002, AJ, 123, 1002 CrossRefGoogle Scholar
Houk, N. 1963, AJ, 68, 253 CrossRefGoogle Scholar
Huang, C. D., et al. 2020, ApJ, 889, 5 Google Scholar
Hubble, E. P. 1925, Pop. Astron., 33, 252 Google Scholar
Hubble, E. 1929, PNAS, 15, 168 Google Scholar
Inno, L., et al. 2016, ApJ, 832, 176 Google Scholar
Ivanov, G. R. & Nikolov, N. S. 1976, Astrophys. Lett., 17, 115 Google Scholar
Iwanek, P., Soszyński, I., & Kozłowski, S. 2021, ApJ, 919, 99 Google Scholar
Iwanek, P., et al. 2022, ApJS, 260, 46 CrossRefGoogle Scholar
Iwanek, P., et al. 2023, ApJS, 264, 20 CrossRefGoogle Scholar
Jacyszyn-Dobrzeniecka, A. M., et al. 2016, Acta Astron., 66, 149 Google Scholar
Jacyszyn-Dobrzeniecka, A. M., et al. 2017, Acta Astron., 67, 1 Google Scholar
Jayasinghe, T., et al. 2020, MNRAS, 493, 4186 Google Scholar
Kanbur, S. M., Ngeow, C., Nanthakumar, A., & Stevens, R. 2007, PASP, 119, 512 CrossRefGoogle Scholar
Kato, D., et al. 2007, PASJ, 59, 615 Google Scholar
Leavitt, H. S. 1908, Ann. Harvard Coll. Obs., 60, 87Google Scholar
Leavitt, H. S. & Pickering, E. C. 1912, Harvard Coll. Obs. Circ., 173Google Scholar
Li, S., Riess, A. G., Busch, M. P., Casertano, S., Macri, L. M., & Yuan, W. 2021, ApJ, 920, 84 CrossRefGoogle Scholar
Macri, L. M., Ngeow, C.-C., Kanbur, S. M., Mahzooni, S., & Smitka, M. T. 2015, AJ, 149, 117 CrossRefGoogle Scholar
Madore, B. F. 1982, ApJ, 253, 575 Google Scholar
Manick, R., Van Winckel, H., Kamath, D., Sekaran, S., & Kolenberg, K. 2018, A&A, 618, A21 Google Scholar
Marconi, M., Fiorentino, G., & Caputo, F. 2004, A&A, 417, 1101 CrossRefGoogle Scholar
Martnez-Vázquez, C. E., et al. 2016, MNRAS, 461, L41 CrossRefGoogle Scholar
Martnez-Vázquez, C. E., Salinas, R., Vivas, A. K., & Catelan, M. 2022, ApJL, 940, L25 CrossRefGoogle Scholar
Muraveva, T., et al. 2015, ApJ, 807, 127 Google Scholar
Muraveva, T., et al. 2018, MNRAS, 473, 3131 Google Scholar
Nagarajan, P., Weisz, D. R., & El-Badry, K. 2022, ApJ, 932, 19 CrossRefGoogle Scholar
Neeley, J. R., et al. 2019, MNRAS, 490, 4254 Google Scholar
Ngeow, C., Kanbur, S. M., & Nanthakumar, A. 2008, A&A, 477, 621 Google Scholar
Ngeow, C.-C., Kanbur, S. M., Neilson, H. R., Nanthakumar, A., & Buonaccorsi, J. 2009, ApJ, 693, 691 Google Scholar
Ngeow, C.-C., et al. 2021, AJ, 162, 63 CrossRefGoogle Scholar
Ngeow, C.-C., Bhardwaj, A., Graham, M. J., Healy, B. F., Laher, R. R., Riddle, R., & Wold, A. 2023, AJ, 165, 190 Google Scholar
Nicholls, C. P., Wood, P. R., Cioni, M.-R. L., & Soszyński, I. 2009, MNRAS, 399, 2063 Google Scholar
O’Connell, D. J. K. 1933, Harvard Coll. Obs. Bull., 893, 19Google Scholar
Ou, J.-Y., Ngeow, C.-C., Bhardwaj, A., Graham, M. J., Laher, R. R., Masci, F. J., & Riddle, R. 2023, AJ, 165, 137 Google Scholar
Pawlak, M., et al. 2014, Acta Astron., 64, 293Google Scholar
Pawlak, M. 2016, MNRAS, 457, 4323 Google Scholar
Payne-Gaposchkin, C. 1954, Ann. Harvard Coll. Obs., 113, 189CrossRefGoogle Scholar
Pietrzyński, G., et al. 2010, Nature, 468, 542 Google Scholar
Pietrzyński, G., et al. 2019, Nature, 567, 200 Google Scholar
Pilecki, B., Pietrzyński, G., Anderson, R. I., Gieren, W., Taormina, M., Narloch, W., Evans, N. R., & Storm, J. 2021, ApJ, 910, 118 CrossRefGoogle Scholar
Pilecki, B., et al. 2022, ApJL, 940, L48 CrossRefGoogle Scholar
Poleski, R., et al. 2010, Acta Astron., 60, 1Google Scholar
Ren, Y., Jiang, B.-W., Yang, M., & Gao, J. 2019, ApJS, 241, 35 CrossRefGoogle Scholar
Riess, A. G., Casertano, S., Yuan, W., Macri, L. M., & Scolnic, D. 2019, ApJ, 876, 85 Google Scholar
Ripepi, V., et al. 2017, MNRAS, 472, 888 Google Scholar
Ripepi, V., Molinaro, R., Musella, I., Marconi, M., Leccia, S., & Eyer, L. 2019, A&A, 625, A14 Google Scholar
Ripepi, V., et al. 2020, A&A, 642, A230 Google Scholar
Ripepi, V., et al. 2022, MNRAS, 512, 563 Google Scholar
Rucinski, S. M. 1994, PASP, 106, 462 CrossRefGoogle Scholar
Rucinski, S. M. & Duerbeck, H. W. 1997, PASP, 109, 1340 CrossRefGoogle Scholar
Rucinski, S. M. 2004, New Astron. Rev., 48, 703 Google Scholar
Sandage, A. & Tammann, G. A. 1968, ApJ, 151, 531 Google Scholar
Shapley, H. 1918, ApJ, 48, 89 CrossRefGoogle Scholar
Skowron, D. M., et al. 2021, ApJS, 252, 23 Google Scholar
Smolec, R., Moskalik, P., Plachy, E., Soszyński, I., & Udalski, A. 2018, MNRAS, 481, 3724 CrossRefGoogle Scholar
Soszyński, I., et al. 2004, Acta Astron., 54, 347Google Scholar
Soszyński, I., et al. 2007, Acta Astron., 57, 201Google Scholar
Soszyński, I., et al. 2008a, Acta Astron., 58, 163Google Scholar
Soszyński, I., et al. 2008b, Acta Astron., 58, 293Google Scholar
Soszyński, I., et al. 2009, Acta Astron., 59, 239Google Scholar
Soszyński, I., et al. 2015, Acta Astron., 65, 233Google Scholar
Soszyński, I., et al. 2016a, Acta Astron., 66, 131Google Scholar
Soszyński, I., et al. 2016b, MNRAS, 463, 1332 Google Scholar
Soszyński, I., et al. 2017, Acta Astron., 67, 103Google Scholar
Soszyński, I., et al. 2018, Acta Astron., 68, 89Google Scholar
Soszyński, I., Smolec, R., Udalski, A., & Pietrukowicz, P. 2019a, ApJ, 873, 43 Google Scholar
Soszyński, I., et al. 2019b, Acta Astron., 69, 87Google Scholar
Soszyński, I., et al. 2020, Acta Astron., 70, 101Google Scholar
Soszyński, I., et al. 2021, ApJL, 911, L22 CrossRefGoogle Scholar
Soszyński, I., et al. 2022, Acta Astron., 72, 245Google Scholar
Soszyński, I., et al. 2023, Acta Astron., 73, 105Google Scholar
Szabados, L., Kiss, L. L., & Derekas, A. 2007, A&A, 461, 613 CrossRefGoogle Scholar
Thompson, S. E., et al. 2012, ApJ, 753, 86 CrossRefGoogle Scholar
Trabucchi, M., Mowlavi, N., & Lebzelter, T. 2021, A&A, 656, A66.Google Scholar
Udalski, A., Soszyński, I., Szymański, M., Kubiak, M., Pietrzyński, G., Woźniak, P., & Żebruń, K. 1999, Acta Astron., 49, 223 Google Scholar
Udalski, A., Szymański, M. K., & Szymański, G. 2015a, Acta Astron., 65, 1 Google Scholar
Udalski, A., et al. 2015b, Acta Astron., 65, 341Google Scholar
Udalski, A., et al. 2018, Acta Astron., 68, 315CrossRefGoogle Scholar
Werner, M. W., et al. 2004, ApJS, 154, 1 Google Scholar
Wielgórski, P., et al. 2017, ApJ, 842, 116 CrossRefGoogle Scholar
Wielgórski, P., et al. 2022, ApJ, 927, 89 CrossRefGoogle Scholar
Wood, P. R. & Sebo, K. M. 1996, MNRAS, 282, 958 CrossRefGoogle Scholar
Wood, P. R., et al. 1999, Proc. IAU Symp., 191, 151 Google Scholar
Wood, P. R., Olivier, E. A., & Kawaler, S. D. 2004, ApJ, 604, 800 Google Scholar
Wright, E. L., et al. 2010, AJ, 140, 1868 Google Scholar
Wrona, M., Kołaczek-Szymański, P. A., Ratajczak, M., & Kozowski, S. 2022a, ApJ, 928, 135 Google Scholar
Wrona, M., et al. 2022b, ApJS, 259, 16 CrossRefGoogle Scholar
Yuan, W., Macri, L. M., Javadi, A., Lin, Z., & Huang, J. Z. 2018, AJ, 156, 112 CrossRefGoogle Scholar
Ziaali, E., Bedding, T. R., Murphy, S. J., Van Reeth, T., & Hey, D. R. 2019, MNRAS, 486, 4348 Google Scholar
Zinn, R. & Searle, L. 1976, ApJ, 209, 734 CrossRefGoogle Scholar