The evolved pulsating CEMP star HD 112869

Laimons Začs; Julius Sperauskas; Aija Grankina; Viktoras Deveikis; Bogdan Kaminskyi; Yakiv Pavlenko; Faig A. Musaev

doi:10.1088/0004-637X/803/1/17

The evolved pulsating CEMP star HD 112869

Laimons Začs
, Julius Sperauskas
, Aija Grankina
, Viktoras Deveikis
, Bogdan Kaminskyi
, Yakiv Pavlenko
, Faig A. Musaev

Laser Centre

Vilnius University
NASU - Main Astronomical Observatory
Special Astrophysical Observatory, Russian Academy of Sciences
Institute of Astronomy of the Russian Academy of Sciences

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Radial velocity measurements, BVR_C photometry, and high-resolution spectroscopy in the wavelength region from blue to near-infrared are employed in order to clarify the evolutionary status of the carbon-enhanced metal-poor star HD 112869 with a unique ratio of carbon isotopes in the atmosphere. An LTE abundance analysis was carried out using the method of spectral synthesis and new self-consistent 1D atmospheric models. The radial velocity monitoring confirmed semiregular variations with a peak-to-peak amplitude of about 10 km and a dominating period of about 115 days. The light, color, and radial velocity variations are typical of the evolved pulsating stars. The atmosphere of HD 112869 appears to be less metal-poor than reported before, [Fe/H] = -2.3 ± 0.2 dex. Carbon-to-oxygen and carbon isotope ratios are found to be extremely high, C/O 12.6 and¹²C/¹³C ≳ 1500, respectively. The s-process elements yttrium and barium are not enhanced, but neodymium appears to be overabundant. The magnesium abundance seems to be lower than the average found for CEMP stars, [Mg/Fe] < +0.4 dex. HD 112869 could be a single low-mass halo star in the stage of asymptotic giant branch evolution.

Original language	English
Article number	17
Pages (from-to)	1-14
Number of pages	14
Journal	Astrophysical Journal
Volume	803
Issue number	1
DOIs	https://doi.org/10.1088/0004-637X/803/1/17
Publication status	Published - 10 Apr 2015

Keywords

Stars: abundances
Stars: AGB and post-AGB
Stars: carbon
Stars: individual (TT CVn)
Stars: oscillations

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10.1088/0004-637X/803/1/17

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title = "The evolved pulsating CEMP star HD 112869",

abstract = "Radial velocity measurements, BVRC photometry, and high-resolution spectroscopy in the wavelength region from blue to near-infrared are employed in order to clarify the evolutionary status of the carbon-enhanced metal-poor star HD 112869 with a unique ratio of carbon isotopes in the atmosphere. An LTE abundance analysis was carried out using the method of spectral synthesis and new self-consistent 1D atmospheric models. The radial velocity monitoring confirmed semiregular variations with a peak-to-peak amplitude of about 10 km and a dominating period of about 115 days. The light, color, and radial velocity variations are typical of the evolved pulsating stars. The atmosphere of HD 112869 appears to be less metal-poor than reported before, [Fe/H] = -2.3 ± 0.2 dex. Carbon-to-oxygen and carbon isotope ratios are found to be extremely high, C/O 12.6 and12C/13C ≳ 1500, respectively. The s-process elements yttrium and barium are not enhanced, but neodymium appears to be overabundant. The magnesium abundance seems to be lower than the average found for CEMP stars, [Mg/Fe] < +0.4 dex. HD 112869 could be a single low-mass halo star in the stage of asymptotic giant branch evolution.",

keywords = "Stars: abundances, Stars: AGB and post-AGB, Stars: carbon, Stars: individual (TT CVn), Stars: oscillations",

author = "Laimons Za{\v c}s and Julius Sperauskas and Aija Grankina and Viktoras Deveikis and Bogdan Kaminskyi and Yakiv Pavlenko and Musaev, \{Faig A.\}",

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AU - Začs, Laimons

AU - Sperauskas, Julius

AU - Grankina, Aija

AU - Deveikis, Viktoras

AU - Kaminskyi, Bogdan

AU - Pavlenko, Yakiv

AU - Musaev, Faig A.

PY - 2015/4/10

Y1 - 2015/4/10

N2 - Radial velocity measurements, BVRC photometry, and high-resolution spectroscopy in the wavelength region from blue to near-infrared are employed in order to clarify the evolutionary status of the carbon-enhanced metal-poor star HD 112869 with a unique ratio of carbon isotopes in the atmosphere. An LTE abundance analysis was carried out using the method of spectral synthesis and new self-consistent 1D atmospheric models. The radial velocity monitoring confirmed semiregular variations with a peak-to-peak amplitude of about 10 km and a dominating period of about 115 days. The light, color, and radial velocity variations are typical of the evolved pulsating stars. The atmosphere of HD 112869 appears to be less metal-poor than reported before, [Fe/H] = -2.3 ± 0.2 dex. Carbon-to-oxygen and carbon isotope ratios are found to be extremely high, C/O 12.6 and12C/13C ≳ 1500, respectively. The s-process elements yttrium and barium are not enhanced, but neodymium appears to be overabundant. The magnesium abundance seems to be lower than the average found for CEMP stars, [Mg/Fe] < +0.4 dex. HD 112869 could be a single low-mass halo star in the stage of asymptotic giant branch evolution.

AB - Radial velocity measurements, BVRC photometry, and high-resolution spectroscopy in the wavelength region from blue to near-infrared are employed in order to clarify the evolutionary status of the carbon-enhanced metal-poor star HD 112869 with a unique ratio of carbon isotopes in the atmosphere. An LTE abundance analysis was carried out using the method of spectral synthesis and new self-consistent 1D atmospheric models. The radial velocity monitoring confirmed semiregular variations with a peak-to-peak amplitude of about 10 km and a dominating period of about 115 days. The light, color, and radial velocity variations are typical of the evolved pulsating stars. The atmosphere of HD 112869 appears to be less metal-poor than reported before, [Fe/H] = -2.3 ± 0.2 dex. Carbon-to-oxygen and carbon isotope ratios are found to be extremely high, C/O 12.6 and12C/13C ≳ 1500, respectively. The s-process elements yttrium and barium are not enhanced, but neodymium appears to be overabundant. The magnesium abundance seems to be lower than the average found for CEMP stars, [Mg/Fe] < +0.4 dex. HD 112869 could be a single low-mass halo star in the stage of asymptotic giant branch evolution.

KW - Stars: abundances

KW - Stars: AGB and post-AGB

KW - Stars: carbon

KW - Stars: individual (TT CVn)

KW - Stars: oscillations

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ER -

The evolved pulsating CEMP star HD 112869

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