A uniform asteroseismic analysis of 22 solar-type stars observed by Kepler

S. Mathur; T. S. Metcalfe; M. Woitaszek; H. Bruntt; G. A. Verner; J. Christensen-Dalsgaard; O. L. Creevey; G. Dogan; S. Basu; C. Karoff; D. Stello; T. Appourchaux; T. L. Campante; W. J. Chaplin; R. A. García; T. R. Bedding; O. Benomar; A. Bonanno; S. Deheuvels; Y. Elsworth; P. Gaulme; J. A. Guzik; R. Handberg; S. Hekker; W. Herzberg; M. J.P.F.G. Monteiro; L. Piau; P. O. Quirion; C. Régulo; M. Roth; D. Salabert; A. Serenelli; M. J. Thompson; R. Trampedach; T. R. White; J. Ballot; I. M. Brandão; J. Molenda-Zakowicz; H. Kjeldsen; J. D. Twicken; K. Uddin; B. Wohler

doi:10.1088/0004-637X/749/2/152

A uniform asteroseismic analysis of 22 solar-type stars observed by Kepler

S. Mathur, T. S. Metcalfe, M. Woitaszek, H. Bruntt, G. A. Verner, J. Christensen-Dalsgaard, O. L. Creevey, G. Dogan, S. Basu, C. Karoff, D. Stello, T. Appourchaux, T. L. Campante, W. J. Chaplin, R. A. García, T. R. Bedding, O. Benomar, A. Bonanno, S. Deheuvels, Y. ElsworthP. Gaulme, J. A. Guzik, R. Handberg, S. Hekker, W. Herzberg, M. J.P.F.G. Monteiro, L. Piau, P. O. Quirion, C. Régulo, M. Roth, D. Salabert, A. Serenelli, M. J. Thompson, R. Trampedach, T. R. White, J. Ballot, I. M. Brandão, J. Molenda-Zakowicz, H. Kjeldsen, J. D. Twicken, K. Uddin, B. Wohler

Center for Space Science

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

Abstract

Asteroseismology with the Kepler space telescope is providing not only an improved characterization of exoplanets and their hoststars, but also a new window on stellar structure and evolution for the large sample of solar-typestars in the field. We perform a uniform analysis of 22 of the brightest asteroseismic targets with the highest signal-to-noise ratio observed for 1 month each during the first year of the mission, and we quantify the precision and relative accuracy of asteroseismic determinations of the stellar radius, mass, and age that are possible using various methods. We present the properties of each star in the sample derived from an automated analysis of the individual oscillation frequencies and other observational constraints using the Asteroseismic Modeling Portal (AMP), and we compare them to the results of model-grid-based methods that fit the global oscillation properties. We find that fitting the individual frequencies typically yields asteroseismic radii and masses to ∼1% precision, and ages to ∼2.5% precision (respectively, 2, 5, and 8 times better than fitting the global oscillation properties). The absolute level of agreement between the results from different approaches is also encouraging, with model-grid-based methods yielding slightly smaller estimates of the radius and mass and slightly older values for the stellar age relative to AMP, which computes a large number of dedicated models for each star. The sample of targets for which this type of analysis is possible will grow as longer data sets are obtained during the remainder of the mission.

Original language	English (US)
Article number	152
Journal	Astrophysical Journal
Volume	749
Issue number	2
DOIs	https://doi.org/10.1088/0004-637X/749/2/152
State	Published - Apr 20 2012

Keywords

methods: numerical
stars: evolution
stars: interiors
stars: oscillations

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1088/0004-637X/749/2/152

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Mathur, S., Metcalfe, T. S., Woitaszek, M., Bruntt, H., Verner, G. A., Christensen-Dalsgaard, J., Creevey, O. L., Dogan, G., Basu, S., Karoff, C., Stello, D., Appourchaux, T., Campante, T. L., Chaplin, W. J., García, R. A., Bedding, T. R., Benomar, O., Bonanno, A., Deheuvels, S., ... Wohler, B. (2012). A uniform asteroseismic analysis of 22 solar-type stars observed by Kepler. Astrophysical Journal, 749(2), Article 152. https://doi.org/10.1088/0004-637X/749/2/152

Mathur, S, Metcalfe, TS, Woitaszek, M, Bruntt, H, Verner, GA, Christensen-Dalsgaard, J, Creevey, OL, Dogan, G, Basu, S, Karoff, C, Stello, D, Appourchaux, T, Campante, TL, Chaplin, WJ, García, RA, Bedding, TR, Benomar, O, Bonanno, A, Deheuvels, S, Elsworth, Y, Gaulme, P, Guzik, JA, Handberg, R, Hekker, S, Herzberg, W, Monteiro, MJPFG, Piau, L, Quirion, PO, Régulo, C, Roth, M, Salabert, D, Serenelli, A, Thompson, MJ, Trampedach, R, White, TR, Ballot, J, Brandão, IM, Molenda-Zakowicz, J, Kjeldsen, H, Twicken, JD, Uddin, K & Wohler, B 2012, 'A uniform asteroseismic analysis of 22 solar-type stars observed by Kepler', Astrophysical Journal, vol. 749, no. 2, 152. https://doi.org/10.1088/0004-637X/749/2/152

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title = "A uniform asteroseismic analysis of 22 solar-type stars observed by Kepler",

abstract = "Asteroseismology with the Kepler space telescope is providing not only an improved characterization of exoplanets and their hoststars, but also a new window on stellar structure and evolution for the large sample of solar-typestars in the field. We perform a uniform analysis of 22 of the brightest asteroseismic targets with the highest signal-to-noise ratio observed for 1 month each during the first year of the mission, and we quantify the precision and relative accuracy of asteroseismic determinations of the stellar radius, mass, and age that are possible using various methods. We present the properties of each star in the sample derived from an automated analysis of the individual oscillation frequencies and other observational constraints using the Asteroseismic Modeling Portal (AMP), and we compare them to the results of model-grid-based methods that fit the global oscillation properties. We find that fitting the individual frequencies typically yields asteroseismic radii and masses to ∼1% precision, and ages to ∼2.5% precision (respectively, 2, 5, and 8 times better than fitting the global oscillation properties). The absolute level of agreement between the results from different approaches is also encouraging, with model-grid-based methods yielding slightly smaller estimates of the radius and mass and slightly older values for the stellar age relative to AMP, which computes a large number of dedicated models for each star. The sample of targets for which this type of analysis is possible will grow as longer data sets are obtained during the remainder of the mission.",

keywords = "methods: numerical, stars: evolution, stars: interiors, stars: oscillations",

author = "S. Mathur and Metcalfe, {T. S.} and M. Woitaszek and H. Bruntt and Verner, {G. A.} and J. Christensen-Dalsgaard and Creevey, {O. L.} and G. Dogan and S. Basu and C. Karoff and D. Stello and T. Appourchaux and Campante, {T. L.} and Chaplin, {W. J.} and Garc{\'i}a, {R. A.} and Bedding, {T. R.} and O. Benomar and A. Bonanno and S. Deheuvels and Y. Elsworth and P. Gaulme and Guzik, {J. A.} and R. Handberg and S. Hekker and W. Herzberg and Monteiro, {M. J.P.F.G.} and L. Piau and Quirion, {P. O.} and C. R{\'e}gulo and M. Roth and D. Salabert and A. Serenelli and Thompson, {M. J.} and R. Trampedach and White, {T. R.} and J. Ballot and Brand{\~a}o, {I. M.} and J. Molenda-Zakowicz and H. Kjeldsen and Twicken, {J. D.} and K. Uddin and B. Wohler",

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T1 - A uniform asteroseismic analysis of 22 solar-type stars observed by Kepler

AU - Mathur, S.

AU - Metcalfe, T. S.

AU - Woitaszek, M.

AU - Bruntt, H.

AU - Verner, G. A.

AU - Christensen-Dalsgaard, J.

AU - Creevey, O. L.

AU - Dogan, G.

AU - Basu, S.

AU - Karoff, C.

AU - Stello, D.

AU - Appourchaux, T.

AU - Campante, T. L.

AU - Chaplin, W. J.

AU - García, R. A.

AU - Bedding, T. R.

AU - Benomar, O.

AU - Bonanno, A.

AU - Deheuvels, S.

AU - Elsworth, Y.

AU - Gaulme, P.

AU - Guzik, J. A.

AU - Handberg, R.

AU - Hekker, S.

AU - Herzberg, W.

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

AU - Piau, L.

AU - Quirion, P. O.

AU - Régulo, C.

AU - Roth, M.

AU - Salabert, D.

AU - Serenelli, A.

AU - Thompson, M. J.

AU - Trampedach, R.

AU - White, T. R.

AU - Ballot, J.

AU - Brandão, I. M.

AU - Molenda-Zakowicz, J.

AU - Kjeldsen, H.

AU - Twicken, J. D.

AU - Uddin, K.

AU - Wohler, B.

PY - 2012/4/20

Y1 - 2012/4/20

N2 - Asteroseismology with the Kepler space telescope is providing not only an improved characterization of exoplanets and their hoststars, but also a new window on stellar structure and evolution for the large sample of solar-typestars in the field. We perform a uniform analysis of 22 of the brightest asteroseismic targets with the highest signal-to-noise ratio observed for 1 month each during the first year of the mission, and we quantify the precision and relative accuracy of asteroseismic determinations of the stellar radius, mass, and age that are possible using various methods. We present the properties of each star in the sample derived from an automated analysis of the individual oscillation frequencies and other observational constraints using the Asteroseismic Modeling Portal (AMP), and we compare them to the results of model-grid-based methods that fit the global oscillation properties. We find that fitting the individual frequencies typically yields asteroseismic radii and masses to ∼1% precision, and ages to ∼2.5% precision (respectively, 2, 5, and 8 times better than fitting the global oscillation properties). The absolute level of agreement between the results from different approaches is also encouraging, with model-grid-based methods yielding slightly smaller estimates of the radius and mass and slightly older values for the stellar age relative to AMP, which computes a large number of dedicated models for each star. The sample of targets for which this type of analysis is possible will grow as longer data sets are obtained during the remainder of the mission.

AB - Asteroseismology with the Kepler space telescope is providing not only an improved characterization of exoplanets and their hoststars, but also a new window on stellar structure and evolution for the large sample of solar-typestars in the field. We perform a uniform analysis of 22 of the brightest asteroseismic targets with the highest signal-to-noise ratio observed for 1 month each during the first year of the mission, and we quantify the precision and relative accuracy of asteroseismic determinations of the stellar radius, mass, and age that are possible using various methods. We present the properties of each star in the sample derived from an automated analysis of the individual oscillation frequencies and other observational constraints using the Asteroseismic Modeling Portal (AMP), and we compare them to the results of model-grid-based methods that fit the global oscillation properties. We find that fitting the individual frequencies typically yields asteroseismic radii and masses to ∼1% precision, and ages to ∼2.5% precision (respectively, 2, 5, and 8 times better than fitting the global oscillation properties). The absolute level of agreement between the results from different approaches is also encouraging, with model-grid-based methods yielding slightly smaller estimates of the radius and mass and slightly older values for the stellar age relative to AMP, which computes a large number of dedicated models for each star. The sample of targets for which this type of analysis is possible will grow as longer data sets are obtained during the remainder of the mission.

KW - methods: numerical

KW - stars: evolution

KW - stars: interiors

KW - stars: oscillations

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DO - 10.1088/0004-637X/749/2/152

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JO - Astrophysical Journal

JF - Astrophysical Journal

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ER -

A uniform asteroseismic analysis of 22 solar-type stars observed by Kepler

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Keywords

ASJC Scopus subject areas

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