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

O. L. Creevey (1,2,3); G. Dogan (4,5); A. Frasca (6); A. O. Thygesen; (4,7); S. Basu (8); J. Bhattacharya (9); K. Biazzo (10) I. M. Brand\~ao; (11,12); H. Bruntt (4); A. Mazumdar (13); E. Niemczura (14); T. Shrotriya; (15); S. G. Sousa (16); D. Stello (16); A. Subramaniam (17); T. L. Campante; (4,11,12); R. Handberg (4); S. Mathur (5); T. R. Bedding (16); R. A. Garc\'ia; (18); C. R\'egulo (1,2); D. Salabert (1,2,3); J. Molenda-\.Zakowicz (14),; P.-O. Quirion (19); T. R. White (16); A. Bonanno (6); W. J. Chaplin (20); J.; Christensen-Dalsgaard (4); J. L. Christiansen (21); Y. Elsworth (20); M. N.; Fanelli (22); C. Karoff (4); K. Kinemuchi (22); H. Kjeldsen (4); N. Gai (8,; 23); M. J.P.F.G. Monteiro (11,12); J. C. Su\'arez (24) ((1) IAC; Spain; (2); ULL; Spain; (3) OCA; France; (4) AU; Denmark; (5) HAO; USA; (6) INAF-Catania,; Italy; (7) NOT; La Palma; Spain; (8) Yale; USA; (9) IITK; India; (10); INAF-Napoli; Italy; (11) CAUP; Portugal; (12) DFA-UP; Portugal; (13); HBCSE-Mumbai; India; (14) IA-Wroclaw; Poland; (15) IISERP-Pune; India; (16); SIFA; Australia; (17) IITM-Chennai; India; (18) CEA; France; (19) CSA,; Canada; (20) U.Birmingham; UK; (21) SETI-CA; USA; (22) BAERI/NASA ARC; USA,; (23) Dezhou U.; China; (24) IAA; Spain)

arXiv:1111.4615·astro-ph.SR·November 23, 2011

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

O. L. Creevey (1,2,3), G. Dogan (4,5), A. Frasca (6), A. O. Thygesen, (4,7), S. Basu (8), J. Bhattacharya (9), K. Biazzo (10) I. M. Brand\~ao, (11,12), H. Bruntt (4), A. Mazumdar (13), E. Niemczura (14), T. Shrotriya, (15), S. G. Sousa (16), D. Stello (16), A. Subramaniam (17)

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TL;DR

This study uses Kepler asteroseismic data and ground-based spectra to precisely determine fundamental stellar parameters like mass, radius, and age for five solar-like stars, highlighting the importance of metallicity constraints.

Contribution

It provides a comprehensive analysis combining asteroseismic and spectroscopic data to improve stellar parameter estimates and compares multiple grid-based methods for consistency.

Findings

01

Mean density and surface gravity determined with 2% and 0.03 dex precision.

02

Stellar radius, mass, and age estimated with 2-5%, 7-11%, and ~35% precision.

03

Including metallicity constraints reduces uncertainties significantly.

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 large frequency 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. We determine asteroseismic distances to these stars with a precision better than 10%, and constrain the stellar inclination for three of the stars. An Li abundance analysis yields an independent estimate of…

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