Stellar parameters and chemical abundances of 223 evolved stars with and without planets

Aims. We present fundamental stellar parameters, chemical abundances, and rotational velocities for a sample of 86 evolved stars with planets (56 giants; 30 subgiants), and for a control sample of 137 stars (101 giants; 36 subgiants) without planets. The analysis was based on both high signal-to-noi...

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Autores principales: Jofré, E., Petrucci, R., Saffe, C., Saker, L., Artur De La Villarmois, E., Chavero, C., Gómez, M., Mauas, P.J.D.
Formato: JOUR
Materias:
Planetary systems
Stars: Abundances
Stars: Fundamental parameters
Techniques: Spectroscopic
Aluminum
Astronomy
Astrophysics
Barium
Chemical analysis
Chemical elements
Magnesium
Manganese
Metal analysis
Planets
Scandium
Signal to noise ratio
Silicon
Sodium
Spot welding
Stars
Titanium
Orbital eccentricity
Planetary system
Potential difference
Rotational velocity
Stars: abundances
Stars:fundamental parameters
Stellar parameters
Techniques: spectroscopic
Orbits
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00046361_v574_n_p_Jofre
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_00046361_v574_n_p_Jofre
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spelling todo:paper_00046361_v574_n_p_Jofre2023-10-03T14:00:52Z Stellar parameters and chemical abundances of 223 evolved stars with and without planets Jofré, E. Petrucci, R. Saffe, C. Saker, L. Artur De La Villarmois, E. Chavero, C. Gómez, M. Mauas, P.J.D. Planetary systems Stars: Abundances Stars: Fundamental parameters Techniques: Spectroscopic Aluminum Astronomy Astrophysics Barium Chemical analysis Chemical elements Magnesium Manganese Metal analysis Planets Scandium Signal to noise ratio Silicon Sodium Spot welding Stars Titanium Orbital eccentricity Planetary system Potential difference Rotational velocity Stars: abundances Stars:fundamental parameters Stellar parameters Techniques: spectroscopic Orbits Aims. We present fundamental stellar parameters, chemical abundances, and rotational velocities for a sample of 86 evolved stars with planets (56 giants; 30 subgiants), and for a control sample of 137 stars (101 giants; 36 subgiants) without planets. The analysis was based on both high signal-to-noise and resolution echelle spectra. The main goals of this work are i) to investigate chemical differences between evolved stars that host planets and those of the control sample without planets; ii) to explore potential differences between the properties of the planets around giants and subgiants; and iii) to search for possible correlations between these properties and the chemical abundances of their host stars. Implications for the scenarios of planet formation and evolution are also discussed. Methods. The fundamental stellar parameters (Teff, log g, [Fe/H], ξt) were computed homogeneously using the FUNDPAR code. The chemical abundances of 14 elements (Na, Mg, Al, Si, Ca, Sc, Ti, V, Cr, Mn, Co, Ni, Zn, and Ba) were obtained using the MOOG code. Rotational velocities were derived from the full width at half maximum of iron isolated lines. Results. In agreement with previous studies, we find that subgiants with planets are, on average, more metal-rich than subgiants without planets by ∼0.16 dex. The [Fe/H] distribution of giants with planets is centered at slightly subsolar metallicities and there is no metallicity enhancement relative to the [Fe/H] distribution of giants without planets. Furthermore, contrary to recent results, we do not find any clear di fference between the metallicity distributions of stars with and without planets for giants with M∗ > 1. 5 M⊙. With regard to the other chemical elements, the analysis of the [X/Fe] distributions shows differences between giants with and without planets for some elements, particularly V, Co, and Ba. Subgiants with and without planets exhibit similar behavior for most of the elements. On the other hand, we find no evidence of rapid rotation among the giants with planets or among the giants without planets. Finally, analyzing the planet properties, some interesting trends might be emerging: i) multi-planet systems around evolved stars show a slight metallicity enhancement compared with single-planet systems; ii) planets with a ≲ 0.5 AU orbit subgiants with [Fe/H] > 0 and giants hosting planets with a ≲ 1 AU have [Fe/H] < 0; iii) higher-mass planets tend to orbit more metal-poor giants with M∗ ≤ 1.5 M⊙, whereas planets around subgiants seem to follow the planet-mass metallicity trend observed on dwarf hosts; iv) [X/Fe] ratios for Na, Si, and Al seem to increase with the mass of planets around giants; v) planets orbiting giants show lower orbital eccentricities than those orbiting subgiants and dwarfs, suggesting a more efficient tidal circularization or the result of the engulfment of close-in planets with larger eccentricities. © ESO 2015. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00046361_v574_n_p_Jofre
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Planetary systems
Stars: Abundances
Stars: Fundamental parameters
Techniques: Spectroscopic
Aluminum
Astronomy
Astrophysics
Barium
Chemical analysis
Chemical elements
Magnesium
Manganese
Metal analysis
Planets
Scandium
Signal to noise ratio
Silicon
Sodium
Spot welding
Stars
Titanium
Orbital eccentricity
Planetary system
Potential difference
Rotational velocity
Stars: abundances
Stars:fundamental parameters
Stellar parameters
Techniques: spectroscopic
Orbits
spellingShingle Planetary systems
Stars: Abundances
Stars: Fundamental parameters
Techniques: Spectroscopic
Aluminum
Astronomy
Astrophysics
Barium
Chemical analysis
Chemical elements
Magnesium
Manganese
Metal analysis
Planets
Scandium
Signal to noise ratio
Silicon
Sodium
Spot welding
Stars
Titanium
Orbital eccentricity
Planetary system
Potential difference
Rotational velocity
Stars: abundances
Stars:fundamental parameters
Stellar parameters
Techniques: spectroscopic
Orbits
Jofré, E.
Petrucci, R.
Saffe, C.
Saker, L.
Artur De La Villarmois, E.
Chavero, C.
Gómez, M.
Mauas, P.J.D.
Stellar parameters and chemical abundances of 223 evolved stars with and without planets
topic_facet Planetary systems
Stars: Abundances
Stars: Fundamental parameters
Techniques: Spectroscopic
Aluminum
Astronomy
Astrophysics
Barium
Chemical analysis
Chemical elements
Magnesium
Manganese
Metal analysis
Planets
Scandium
Signal to noise ratio
Silicon
Sodium
Spot welding
Stars
Titanium
Orbital eccentricity
Planetary system
Potential difference
Rotational velocity
Stars: abundances
Stars:fundamental parameters
Stellar parameters
Techniques: spectroscopic
Orbits
description Aims. We present fundamental stellar parameters, chemical abundances, and rotational velocities for a sample of 86 evolved stars with planets (56 giants; 30 subgiants), and for a control sample of 137 stars (101 giants; 36 subgiants) without planets. The analysis was based on both high signal-to-noise and resolution echelle spectra. The main goals of this work are i) to investigate chemical differences between evolved stars that host planets and those of the control sample without planets; ii) to explore potential differences between the properties of the planets around giants and subgiants; and iii) to search for possible correlations between these properties and the chemical abundances of their host stars. Implications for the scenarios of planet formation and evolution are also discussed. Methods. The fundamental stellar parameters (Teff, log g, [Fe/H], ξt) were computed homogeneously using the FUNDPAR code. The chemical abundances of 14 elements (Na, Mg, Al, Si, Ca, Sc, Ti, V, Cr, Mn, Co, Ni, Zn, and Ba) were obtained using the MOOG code. Rotational velocities were derived from the full width at half maximum of iron isolated lines. Results. In agreement with previous studies, we find that subgiants with planets are, on average, more metal-rich than subgiants without planets by ∼0.16 dex. The [Fe/H] distribution of giants with planets is centered at slightly subsolar metallicities and there is no metallicity enhancement relative to the [Fe/H] distribution of giants without planets. Furthermore, contrary to recent results, we do not find any clear di fference between the metallicity distributions of stars with and without planets for giants with M∗ > 1. 5 M⊙. With regard to the other chemical elements, the analysis of the [X/Fe] distributions shows differences between giants with and without planets for some elements, particularly V, Co, and Ba. Subgiants with and without planets exhibit similar behavior for most of the elements. On the other hand, we find no evidence of rapid rotation among the giants with planets or among the giants without planets. Finally, analyzing the planet properties, some interesting trends might be emerging: i) multi-planet systems around evolved stars show a slight metallicity enhancement compared with single-planet systems; ii) planets with a ≲ 0.5 AU orbit subgiants with [Fe/H] > 0 and giants hosting planets with a ≲ 1 AU have [Fe/H] < 0; iii) higher-mass planets tend to orbit more metal-poor giants with M∗ ≤ 1.5 M⊙, whereas planets around subgiants seem to follow the planet-mass metallicity trend observed on dwarf hosts; iv) [X/Fe] ratios for Na, Si, and Al seem to increase with the mass of planets around giants; v) planets orbiting giants show lower orbital eccentricities than those orbiting subgiants and dwarfs, suggesting a more efficient tidal circularization or the result of the engulfment of close-in planets with larger eccentricities. © ESO 2015.
format JOUR
author Jofré, E.
Petrucci, R.
Saffe, C.
Saker, L.
Artur De La Villarmois, E.
Chavero, C.
Gómez, M.
Mauas, P.J.D.
author_facet Jofré, E.
Petrucci, R.
Saffe, C.
Saker, L.
Artur De La Villarmois, E.
Chavero, C.
Gómez, M.
Mauas, P.J.D.
author_sort Jofré, E.
title Stellar parameters and chemical abundances of 223 evolved stars with and without planets
title_short Stellar parameters and chemical abundances of 223 evolved stars with and without planets
title_full Stellar parameters and chemical abundances of 223 evolved stars with and without planets
title_fullStr Stellar parameters and chemical abundances of 223 evolved stars with and without planets
title_full_unstemmed Stellar parameters and chemical abundances of 223 evolved stars with and without planets
title_sort stellar parameters and chemical abundances of 223 evolved stars with and without planets
url http://hdl.handle.net/20.500.12110/paper_00046361_v574_n_p_Jofre
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AT saffec stellarparametersandchemicalabundancesof223evolvedstarswithandwithoutplanets
AT sakerl stellarparametersandchemicalabundancesof223evolvedstarswithandwithoutplanets
AT arturdelavillarmoise stellarparametersandchemicalabundancesof223evolvedstarswithandwithoutplanets
AT chaveroc stellarparametersandchemicalabundancesof223evolvedstarswithandwithoutplanets
AT gomezm stellarparametersandchemicalabundancesof223evolvedstarswithandwithoutplanets
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