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Spectroscopic studies of southern-hemisphere Cepheids: Three Cepheids in Crux (BG Cru,R Cru,and T Cru) |
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| Authors: | I A Usenko A Yu Kniazev L N Berdnikov A B Fokin V V Kravtsov |
| Institution: | 1. Astronomical Observatory, Odessa National University, Shevchenko Park, Odessa, 65014, Ukraine 2. Nikolaev Astronomical Observatory, Observatornaya ul. 1, Nikolaev, 54030, Ukraine 3. South African Astronomical Observatory, 7925 Observatory, Cape Town, South Africa 4. Southern African Large Telescope Foundation, 7925 Observatory, Cape Town, South Africa 5. Sternberg Astronomical Institute, Lomonosov Moscow State University, Moscow, 119991, Russia 6. Institute of Astronomy, Russian Academy of Sciences, Pyatnitskaya ul. 48, Moscow, 119017, Russia 7. Instituto de Astronomía, Universidad Cat’olica del Norte, Avenida Angamos 0610, Antofagasta, Chile |
| Abstract: | This paper is devoted to spectroscopic studies of three bright Cepheids (BG Cru, R Cru, and T Cru) and continues the series of our works aimed at determining the atmospheric parameters and chemical composition of southern-hemisphere Cepheids. We have studied 12 high-resolution spectra taken with the 1.9-m telescope of the South African Astronomical Observatory and the 8-m VLT telescope of the European Southern Observatory in Chile. The atmospheric parameters and chemical composition have been determined for these stars. The averaged atmospheric parameters are: T eff = 6253 ± 30 K, log g = 2.15, V t = 4.30 km s?1 for BG Cru; T eff = 5812 ± 22 K, log g = 1.65, V t = 3.80 km s?1 for R Cru; and T eff = 5588 ± 21 K, log g = 1.70, V t = 4.30 km s?1 for T Cru. All these Cepheids exhibit a nearly solar metallicity (Fe/H] = +0.04 dex for BG Cru, +0.06 dex for R Cru, and +0.08 dex for T Cru); the carbon, oxygen, sodium, magnesium, and aluminum abundances suggest that the objects have already passed the first dredge-up. The abundances of other elements are nearly solar. An anomalous behavior of the absorption lines of metals (neutral atoms and ions) in the atmosphere of the small-amplitude Cepheid BG Cru is pointed out. The main components in these lines split up into additional blue and red analogs that are smaller in depth and equivalent width and vary with pulsation phase. Such splitting of the absorption lines of metals (with the hydrogen lines being invariable) is known for the classical Cepheid X Sgr. The calculated nonlinear pulsation model of BG Cru with the parameters L = 2000 L ⊙, T eff = 6180 K, and M = 4.3M ⊙ shows that this small-amplitude Cepheid pulsates in the first overtone and is close to the blue boundary of the Cepheid instability strip. According to the model, the extent of the Cepheid’s atmosphere is relatively small. Therefore, no spectroscopic manifestations of shock waves through variability are possible in this Cepheid and the observed blue and red components in metal absorption lines can be explained solely by the presence of an extended circumstellar envelope around BG Cru. |
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