Fundamental properties of five Kepler stars using global asteroseismic quantities and ground-based observations

O. L. Creevey; G. Doǧan; A. Frasca; A. O. Thygesen; S. Basu; J. Bhattacharya; K. Biazzo; I. M. Brandão; H. Bruntt; A. Mazumdar; E. Niemczura; T. Shrotriya; S. G. Sousa; D. Stello; A. Subramaniam; T. L. Campante; R. Handberg; S. Mathur; T. R. Bedding; R. A. García; C. Régulo; D. Salabert; J. Molenda-Zakowicz; P. O. Quirion; T. R. White; A. Bonanno; W. J. Chaplin; J. Christensen-Dalsgaard; J. L. Christiansen; Y. Elsworth; M. N. Fanelli; C. Karoff; K. Kinemuchi; H. Kjeldsen; N. Gai; M. J.P.F.G. Monteiro; J. C. Suárez

doi:10.1051/0004-6361/201117037

Fundamental properties of five Kepler stars using global asteroseismic quantities and ground-based observations

O. L. Creevey, G. Doǧan, A. Frasca, A. O. Thygesen, S. Basu, J. Bhattacharya, K. Biazzo, I. M. Brandão, H. Bruntt, A. Mazumdar, E. Niemczura, T. Shrotriya, S. G. Sousa, D. Stello, A. Subramaniam, T. L. Campante, R. Handberg, S. Mathur, T. R. Bedding, R. A. GarcíaC. Régulo, D. Salabert, J. Molenda-Zakowicz, P. O. Quirion, T. R. White, A. Bonanno, W. J. Chaplin, J. Christensen-Dalsgaard, J. L. Christiansen, Y. Elsworth, M. N. Fanelli, C. Karoff, K. Kinemuchi, H. Kjeldsen, N. Gai, M. J.P.F.G. Monteiro, J. C. Suárez

Center for Space Science

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

Abstract

We present an asteroseismic study of the solar-like stars KIC 11395018, KIC 10273246, KIC 10920273, KIC 10339342, and KIC 11234888 using short-cadence time series of more than eight months from the Kepler satellite. For four of these stars, we derive atmospheric parameters from spectra acquired with the Nordic Optical Telescope. The global seismic quantities (average largefrequency separation and frequency of maximum power), combined with the atmospheric parameters, yield the mean density and surface gravity with precisions of 2% and ∼0.03 dex, respectively. We also determine the radius, mass, and age with precisions of 2-5%, 7-11%, and ∼35%, respectively, using grid-based analyses. Coupling the stellar parameters with photometric data yields an asteroseismic distance with a precision better than 10%. A v sin i measurement provides a rotational period-inclination correlation, and using the rotational periods from the recent literature, we constrain the stellar inclination for three of the stars. An Li abundance analysis yields an independent estimate of the age, but this is inconsistent with the asteroseismically determined age for one of the stars. We assess the performance of five grid-based analysis methods and find them all to provide consistent values of the surface gravity to ∼0.03 dex when both atmospheric and seismic constraints are at hand. The different grid-based analyses all yield fitted values of radius and mass to within 2.4σ, and taking the mean of these results reduces it to 1.5σ. The absence of a metallicity constraint when the average large frequency separation is measured with a precision of 1% biases the fitted radius and mass for the stars with non-solar metallicity (metal-rich KIC 11395018 and metal-poor KIC 10273246), while including a metallicity constraint reduces the uncertainties in both of these parameters by almost a factor of two. We found that including the average small frequency separation improves the determination of the age only for KIC 11395018 and KIC 11234888, and for the latter this improvement was due to the lack of strong atmospheric constraints.

Original language	English (US)
Article number	A111
Journal	Astronomy and Astrophysics
Volume	537
DOIs	https://doi.org/10.1051/0004-6361/201117037
State	Published - 2012

Keywords

asteroseismology
stars: atmospheres
stars: fundamental parameters
stars: general
stars: oscillations
stars: solar-type

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

Access to Document

10.1051/0004-6361/201117037

Cite this

Creevey, O. L., Doǧan, G., Frasca, A., Thygesen, A. O., Basu, S., Bhattacharya, J., Biazzo, K., Brandão, I. M., Bruntt, H., Mazumdar, A., Niemczura, E., Shrotriya, T., Sousa, S. G., Stello, D., Subramaniam, A., Campante, T. L., Handberg, R., Mathur, S., Bedding, T. R., ... Suárez, J. C. (2012). Fundamental properties of five Kepler stars using global asteroseismic quantities and ground-based observations. Astronomy and Astrophysics, 537, Article A111. https://doi.org/10.1051/0004-6361/201117037

Creevey, OL, Doǧan, G, Frasca, A, Thygesen, AO, Basu, S, Bhattacharya, J, Biazzo, K, Brandão, IM, Bruntt, H, Mazumdar, A, Niemczura, E, Shrotriya, T, Sousa, SG, Stello, D, Subramaniam, A, Campante, TL, Handberg, R, Mathur, S, Bedding, TR, García, RA, Régulo, C, Salabert, D, Molenda-Zakowicz, J, Quirion, PO, White, TR, Bonanno, A, Chaplin, WJ, Christensen-Dalsgaard, J, Christiansen, JL, Elsworth, Y, Fanelli, MN, Karoff, C, Kinemuchi, K, Kjeldsen, H, Gai, N, Monteiro, MJPFG & Suárez, JC 2012, 'Fundamental properties of five Kepler stars using global asteroseismic quantities and ground-based observations', Astronomy and Astrophysics, vol. 537, A111. https://doi.org/10.1051/0004-6361/201117037

@article{debb896f00d24c2e95275f6ce0205c73,

title = "Fundamental properties of five Kepler stars using global asteroseismic quantities and ground-based observations",

abstract = "We present an asteroseismic study of the solar-like stars KIC 11395018, KIC 10273246, KIC 10920273, KIC 10339342, and KIC 11234888 using short-cadence time series of more than eight months from the Kepler satellite. For four of these stars, we derive atmospheric parameters from spectra acquired with the Nordic Optical Telescope. The global seismic quantities (average largefrequency separation and frequency of maximum power), combined with the atmospheric parameters, yield the mean density and surface gravity with precisions of 2% and ∼0.03 dex, respectively. We also determine the radius, mass, and age with precisions of 2-5%, 7-11%, and ∼35%, respectively, using grid-based analyses. Coupling the stellar parameters with photometric data yields an asteroseismic distance with a precision better than 10%. A v sin i measurement provides a rotational period-inclination correlation, and using the rotational periods from the recent literature, we constrain the stellar inclination for three of the stars. An Li abundance analysis yields an independent estimate of the age, but this is inconsistent with the asteroseismically determined age for one of the stars. We assess the performance of five grid-based analysis methods and find them all to provide consistent values of the surface gravity to ∼0.03 dex when both atmospheric and seismic constraints are at hand. The different grid-based analyses all yield fitted values of radius and mass to within 2.4σ, and taking the mean of these results reduces it to 1.5σ. The absence of a metallicity constraint when the average large frequency separation is measured with a precision of 1% biases the fitted radius and mass for the stars with non-solar metallicity (metal-rich KIC 11395018 and metal-poor KIC 10273246), while including a metallicity constraint reduces the uncertainties in both of these parameters by almost a factor of two. We found that including the average small frequency separation improves the determination of the age only for KIC 11395018 and KIC 11234888, and for the latter this improvement was due to the lack of strong atmospheric constraints.",

keywords = "asteroseismology, stars: atmospheres, stars: fundamental parameters, stars: general, stars: oscillations, stars: solar-type",

author = "Creevey, {O. L.} and G. Doǧan and A. Frasca and Thygesen, {A. O.} and S. Basu and J. Bhattacharya and K. Biazzo and Brand{\~a}o, {I. M.} and H. Bruntt and A. Mazumdar and E. Niemczura and T. Shrotriya and Sousa, {S. G.} and D. Stello and A. Subramaniam and Campante, {T. L.} and R. Handberg and S. Mathur and Bedding, {T. R.} and Garc{\'i}a, {R. A.} and C. R{\'e}gulo and D. Salabert and J. Molenda-Zakowicz and Quirion, {P. O.} and White, {T. R.} and A. Bonanno and Chaplin, {W. J.} and J. Christensen-Dalsgaard and Christiansen, {J. L.} and Y. Elsworth and Fanelli, {M. N.} and C. Karoff and K. Kinemuchi and H. Kjeldsen and N. Gai and Monteiro, {M. J.P.F.G.} and Su{\'a}rez, {J. C.}",

note = "Funding Information: All of the authors acknowledge the Kepler team for their years of work to provide excellent data. Funding for this Discovery mission is provided by NASA{\textquoteright}s Science Mission Directorate. This article is based on observations made with the Nordic Optical Telescope operated on the island of La Palma in the Spanish Observatorio del Roque de los Muchachos. We thank Othman Benomar and Fr{\'e}d{\'e}ric Thevenin for useful discussions, and we also thank the referee for very constructive comments which has greatly improved the manuscript. Part of this research was carried out while O.L.C. was a Henri Poincar{\'e} Fellow at the Observatoire de la C{\^o}te d{\textquoteright}Azur. The Henri Poincar{\'e} Fellowship is funded the Conseil G{\'e}n{\'e}ral des Alpes-Maritimes and the Observatoire de la C{\^o}te d{\textquoteright}Azur. D.St acknowledges support from the Australian Research Council. N.G. acknowledges the China State Scholarship Fund that allowed her to spend a year at Yale. She also acknowledges grant 2007CB815406 of the Ministry of Science and Technology of the Peoples Republic of China and grants 10773003 and 10933002 from the National Natural Science Foundation of China. W.J.C. and Y.E. acknowledge the financial support of the UK Science and Technology Facilities Council (STFC), and the International Space Science Institute (ISSI). I.M.B. is supported by the grant SFRH/BD/41213/2007 funded by FCT/MCTES, Portugal. E.N. acknowledges financial support of the NN203 302635 grant from the MNiSW. G.D., H.B., and C.K. acknowledge financial support from The Danish Council for Independent Research and thank Frank Grundahl and Thomas Amby Ottosen for suggestions regarding the NOT proposal. J.B., A.M., A.S., and T.S. acknowledge support from the National Initiative on Undergraduate Science (NIUS) undertaken by the Homi Bhabha Centre for Science Education – Tata Institute of Fundamental Research (HBCSE-TIFR), Mumbai, India. S.G.S. acknowledges the support from grant SFRH/BPD/47611/2008 from the Funda{\c c}{\~a}o para a Ci{\^e}ncia e Tecnologia (Portugal). J.M.Z. acknowledges the Polish Ministry grant number N N203 405139. D.Sa. acknowledges funding by the Spanish Ministry of Science and Innovation (MICINN) under the grant AYA 2010-20982-C02-02.",

year = "2012",

doi = "10.1051/0004-6361/201117037",

language = "English (US)",

volume = "537",

journal = "Astronomy and Astrophysics",

issn = "0004-6361",

publisher = "EDP Sciences",

}

TY - JOUR

T1 - Fundamental properties of five Kepler stars using global asteroseismic quantities and ground-based observations

AU - Creevey, O. L.

AU - Doǧan, G.

AU - Frasca, A.

AU - Thygesen, A. O.

AU - Basu, S.

AU - Bhattacharya, J.

AU - Biazzo, K.

AU - Brandão, I. M.

AU - Bruntt, H.

AU - Mazumdar, A.

AU - Niemczura, E.

AU - Shrotriya, T.

AU - Sousa, S. G.

AU - Stello, D.

AU - Subramaniam, A.

AU - Campante, T. L.

AU - Handberg, R.

AU - Mathur, S.

AU - Bedding, T. R.

AU - García, R. A.

AU - Régulo, C.

AU - Salabert, D.

AU - Molenda-Zakowicz, J.

AU - Quirion, P. O.

AU - White, T. R.

AU - Bonanno, A.

AU - Chaplin, W. J.

AU - Christensen-Dalsgaard, J.

AU - Christiansen, J. L.

AU - Elsworth, Y.

AU - Fanelli, M. N.

AU - Karoff, C.

AU - Kinemuchi, K.

AU - Kjeldsen, H.

AU - Gai, N.

AU - Monteiro, M. J.P.F.G.

AU - Suárez, J. C.

N1 - Funding Information: All of the authors acknowledge the Kepler team for their years of work to provide excellent data. Funding for this Discovery mission is provided by NASA’s Science Mission Directorate. This article is based on observations made with the Nordic Optical Telescope operated on the island of La Palma in the Spanish Observatorio del Roque de los Muchachos. We thank Othman Benomar and Frédéric Thevenin for useful discussions, and we also thank the referee for very constructive comments which has greatly improved the manuscript. Part of this research was carried out while O.L.C. was a Henri Poincaré Fellow at the Observatoire de la Côte d’Azur. The Henri Poincaré Fellowship is funded the Conseil Général des Alpes-Maritimes and the Observatoire de la Côte d’Azur. D.St acknowledges support from the Australian Research Council. N.G. acknowledges the China State Scholarship Fund that allowed her to spend a year at Yale. She also acknowledges grant 2007CB815406 of the Ministry of Science and Technology of the Peoples Republic of China and grants 10773003 and 10933002 from the National Natural Science Foundation of China. W.J.C. and Y.E. acknowledge the financial support of the UK Science and Technology Facilities Council (STFC), and the International Space Science Institute (ISSI). I.M.B. is supported by the grant SFRH/BD/41213/2007 funded by FCT/MCTES, Portugal. E.N. acknowledges financial support of the NN203 302635 grant from the MNiSW. G.D., H.B., and C.K. acknowledge financial support from The Danish Council for Independent Research and thank Frank Grundahl and Thomas Amby Ottosen for suggestions regarding the NOT proposal. J.B., A.M., A.S., and T.S. acknowledge support from the National Initiative on Undergraduate Science (NIUS) undertaken by the Homi Bhabha Centre for Science Education – Tata Institute of Fundamental Research (HBCSE-TIFR), Mumbai, India. S.G.S. acknowledges the support from grant SFRH/BPD/47611/2008 from the Fundação para a Ciência e Tecnologia (Portugal). J.M.Z. acknowledges the Polish Ministry grant number N N203 405139. D.Sa. acknowledges funding by the Spanish Ministry of Science and Innovation (MICINN) under the grant AYA 2010-20982-C02-02.

PY - 2012

Y1 - 2012

N2 - We present an asteroseismic study of the solar-like stars KIC 11395018, KIC 10273246, KIC 10920273, KIC 10339342, and KIC 11234888 using short-cadence time series of more than eight months from the Kepler satellite. For four of these stars, we derive atmospheric parameters from spectra acquired with the Nordic Optical Telescope. The global seismic quantities (average largefrequency separation and frequency of maximum power), combined with the atmospheric parameters, yield the mean density and surface gravity with precisions of 2% and ∼0.03 dex, respectively. We also determine the radius, mass, and age with precisions of 2-5%, 7-11%, and ∼35%, respectively, using grid-based analyses. Coupling the stellar parameters with photometric data yields an asteroseismic distance with a precision better than 10%. A v sin i measurement provides a rotational period-inclination correlation, and using the rotational periods from the recent literature, we constrain the stellar inclination for three of the stars. An Li abundance analysis yields an independent estimate of the age, but this is inconsistent with the asteroseismically determined age for one of the stars. We assess the performance of five grid-based analysis methods and find them all to provide consistent values of the surface gravity to ∼0.03 dex when both atmospheric and seismic constraints are at hand. The different grid-based analyses all yield fitted values of radius and mass to within 2.4σ, and taking the mean of these results reduces it to 1.5σ. The absence of a metallicity constraint when the average large frequency separation is measured with a precision of 1% biases the fitted radius and mass for the stars with non-solar metallicity (metal-rich KIC 11395018 and metal-poor KIC 10273246), while including a metallicity constraint reduces the uncertainties in both of these parameters by almost a factor of two. We found that including the average small frequency separation improves the determination of the age only for KIC 11395018 and KIC 11234888, and for the latter this improvement was due to the lack of strong atmospheric constraints.

AB - We present an asteroseismic study of the solar-like stars KIC 11395018, KIC 10273246, KIC 10920273, KIC 10339342, and KIC 11234888 using short-cadence time series of more than eight months from the Kepler satellite. For four of these stars, we derive atmospheric parameters from spectra acquired with the Nordic Optical Telescope. The global seismic quantities (average largefrequency separation and frequency of maximum power), combined with the atmospheric parameters, yield the mean density and surface gravity with precisions of 2% and ∼0.03 dex, respectively. We also determine the radius, mass, and age with precisions of 2-5%, 7-11%, and ∼35%, respectively, using grid-based analyses. Coupling the stellar parameters with photometric data yields an asteroseismic distance with a precision better than 10%. A v sin i measurement provides a rotational period-inclination correlation, and using the rotational periods from the recent literature, we constrain the stellar inclination for three of the stars. An Li abundance analysis yields an independent estimate of the age, but this is inconsistent with the asteroseismically determined age for one of the stars. We assess the performance of five grid-based analysis methods and find them all to provide consistent values of the surface gravity to ∼0.03 dex when both atmospheric and seismic constraints are at hand. The different grid-based analyses all yield fitted values of radius and mass to within 2.4σ, and taking the mean of these results reduces it to 1.5σ. The absence of a metallicity constraint when the average large frequency separation is measured with a precision of 1% biases the fitted radius and mass for the stars with non-solar metallicity (metal-rich KIC 11395018 and metal-poor KIC 10273246), while including a metallicity constraint reduces the uncertainties in both of these parameters by almost a factor of two. We found that including the average small frequency separation improves the determination of the age only for KIC 11395018 and KIC 11234888, and for the latter this improvement was due to the lack of strong atmospheric constraints.

KW - asteroseismology

KW - stars: atmospheres

KW - stars: fundamental parameters

KW - stars: general

KW - stars: oscillations

KW - stars: solar-type

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JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

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ER -

Fundamental properties of five Kepler stars using global asteroseismic quantities and ground-based observations

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