Asteroseismology of the Hyades red giant and planet host epsilon Tauri

Asteroseismic analysis of solar-like stars allows us to determine physical parameters such as stellar mass, with a higher precision compared to most other methods. Even in a well-studied cluster such as the Hyades, the masses of the red giant stars are not well known, and previous mass estimates are...

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Veröffentlicht in:	arXiv.org 2019-02
Hauptverfasser:	Arentoft, Torben, Grundahl, Frank, White, Timothy R, Slumstrup, Ditte, Handberg, Rasmus, Lund, Mikkel N, Brogaard, Karsten, Andersen, Mads F, Victor Silva Aguirre, Zhang, Chunguang, Chen, Xiaodian, Zhengzhou Yan, Pope, Benjamin J S, Huber, Daniel, Kjeldsen, Hans, Christensen-Dalsgaard, Jørgen, Jessen-Hansen, Jens, Antoci, Victoria, Frandsen, Søren, Bedding, Timothy R, Palle, Pere L, Garcia, Rafael A, Deng, Licai, Hon, Marc, Stello, Dennis, Jørgensen, Uffe G
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Sprache:	eng
Schlagworte:	Helium Oscillation modes Parameters Physical properties Physics - Solar and Stellar Astrophysics Planetary evolution Radial velocity Red giant stars Seismic analysis Stellar evolution Stellar mass Stellar seismology
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creator	Arentoft, Torben Grundahl, Frank White, Timothy R Slumstrup, Ditte Handberg, Rasmus Lund, Mikkel N Brogaard, Karsten Andersen, Mads F Victor Silva Aguirre Zhang, Chunguang Chen, Xiaodian Zhengzhou Yan Pope, Benjamin J S Huber, Daniel Kjeldsen, Hans Christensen-Dalsgaard, Jørgen Jessen-Hansen, Jens Antoci, Victoria Frandsen, Søren Bedding, Timothy R Palle, Pere L Garcia, Rafael A Deng, Licai Hon, Marc Stello, Dennis Jørgensen, Uffe G
description	Asteroseismic analysis of solar-like stars allows us to determine physical parameters such as stellar mass, with a higher precision compared to most other methods. Even in a well-studied cluster such as the Hyades, the masses of the red giant stars are not well known, and previous mass estimates are based on model calculations (isochrones). The four known red giants in the Hyades are assumed to be clump (core-helium-burning) stars based on their positions in colour-magnitude diagrams, however asteroseismology offers an opportunity to test this assumption. Using asteroseismic techniques combined with other methods, we aim to derive physical parameters and the evolutionary stage for the planet hosting star epsilon Tau, which is one of the four red giants located in the Hyades. We analysed time-series data from both ground and space to perform the asteroseismic analysis. By combining high signal-to-noise (S/N) radial-velocity data from the ground-based SONG network with continuous space-based data from the revised Kepler mission K2, we derive and characterize 27 individual oscillation modes for epsilon Tau, along with global oscillation parameters such as the large frequency separation and the ratio between the amplitude of the oscillations measured in radial velocity and intensity as a function of frequency. The latter has been measured previously for only two stars, the Sun and Procyon. Combining the seismic analysis with interferometric and spectroscopic measurements, we derive physical parameters for epsilon Tau, and discuss its evolutionary status.
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Even in a well-studied cluster such as the Hyades, the masses of the red giant stars are not well known, and previous mass estimates are based on model calculations (isochrones). The four known red giants in the Hyades are assumed to be clump (core-helium-burning) stars based on their positions in colour-magnitude diagrams, however asteroseismology offers an opportunity to test this assumption. Using asteroseismic techniques combined with other methods, we aim to derive physical parameters and the evolutionary stage for the planet hosting star epsilon Tau, which is one of the four red giants located in the Hyades. We analysed time-series data from both ground and space to perform the asteroseismic analysis. By combining high signal-to-noise (S/N) radial-velocity data from the ground-based SONG network with continuous space-based data from the revised Kepler mission K2, we derive and characterize 27 individual oscillation modes for epsilon Tau, along with global oscillation parameters such as the large frequency separation and the ratio between the amplitude of the oscillations measured in radial velocity and intensity as a function of frequency. The latter has been measured previously for only two stars, the Sun and Procyon. 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By combining high signal-to-noise (S/N) radial-velocity data from the ground-based SONG network with continuous space-based data from the revised Kepler mission K2, we derive and characterize 27 individual oscillation modes for epsilon Tau, along with global oscillation parameters such as the large frequency separation and the ratio between the amplitude of the oscillations measured in radial velocity and intensity as a function of frequency. The latter has been measured previously for only two stars, the Sun and Procyon. 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Even in a well-studied cluster such as the Hyades, the masses of the red giant stars are not well known, and previous mass estimates are based on model calculations (isochrones). The four known red giants in the Hyades are assumed to be clump (core-helium-burning) stars based on their positions in colour-magnitude diagrams, however asteroseismology offers an opportunity to test this assumption. Using asteroseismic techniques combined with other methods, we aim to derive physical parameters and the evolutionary stage for the planet hosting star epsilon Tau, which is one of the four red giants located in the Hyades. We analysed time-series data from both ground and space to perform the asteroseismic analysis. By combining high signal-to-noise (S/N) radial-velocity data from the ground-based SONG network with continuous space-based data from the revised Kepler mission K2, we derive and characterize 27 individual oscillation modes for epsilon Tau, along with global oscillation parameters such as the large frequency separation and the ratio between the amplitude of the oscillations measured in radial velocity and intensity as a function of frequency. The latter has been measured previously for only two stars, the Sun and Procyon. Combining the seismic analysis with interferometric and spectroscopic measurements, we derive physical parameters for epsilon Tau, and discuss its evolutionary status.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.1901.06187</doi><oa>free_for_read</oa></addata></record>
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subjects	Helium Oscillation modes Parameters Physical properties Physics - Solar and Stellar Astrophysics Planetary evolution Radial velocity Red giant stars Seismic analysis Stellar evolution Stellar mass Stellar seismology
title	Asteroseismology of the Hyades red giant and planet host epsilon Tauri
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