Apparent non-variable stars from the Kepler mission

E. Paunzen; F. Binder; A. Cyniburk; M. N. Duffek; F. Haberhauer; C. Heinreichsberger; H. Kohlhofer; L. Kueß; H. M. Maitzen; T. Saalmann; A. M. Schanz; S. Schauer; K. Schmidt; A. Tokareva; I. Wizani

doi:10.1051/0004-6361/202244572

Apparent non-variable stars from the Kepler mission

E. Paunzen, F. Binder, A. Cyniburk, M. N. Duffek, F. Haberhauer, C. Heinreichsberger, H. Kohlhofer, L. Kueß, H. M. Maitzen, T. Saalmann, A. M. Schanz, S. Schauer, K. Schmidt, A. Tokareva, I. Wizani

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

Context. The analysis of non-variable stars is generally neglected in the literature. However, such objects are needed for many calibration processes and for testing pulsational models. The photometric time series of the Kepler satellite mission still stand as the most accurate data available today and are excellently suited to the search for non-variable stars. Aims. We analysed all long-cadence light curves for stars not reported as a variable so far from the Kepler satellite mission. Using the known characteristics and flaws of these data sets, we defined three different frequency ranges where we searched for non-variability. Methods. We used the Lomb-Scargle periodogram and the false-alarm probability (FAP) to analyse the cleaned data sets of 138 451 light curves. We then used log FAP ≥ - 2 to define a star as 'non-variable' in the ranges below 0.1 c/d, 0.1 to 2.0 c/d, and 2.0 to 25.0 c/d, respectively. Furthermore, we also calculated the standard deviation of the mean light curve to obtain another parameter. Results. In total, we found 14 154 stars that fulfil the set criteria. These objects are mostly cooler than the 7000 K populating the whole main sequence (MS) to the red giant branch (RGB).

Original language	English
Article number	A208
Number of pages	7
Journal	Astronomy and Astrophysics
Volume	687
DOIs	https://doi.org/10.1051/0004-6361/202244572
Publication status	Published - 1 Jul 2024

Austrian Fields of Science 2012

103003 Astronomy
103004 Astrophysics

Keywords

Catalogs
Hertzsprung-Russell and C-M diagrams
Methods: data analysis
Supernovae: general

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10.1051/0004-6361/202244572Licence: CC BY 4.0

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title = "Apparent non-variable stars from the Kepler mission",

abstract = "Context. The analysis of non-variable stars is generally neglected in the literature. However, such objects are needed for many calibration processes and for testing pulsational models. The photometric time series of the Kepler satellite mission still stand as the most accurate data available today and are excellently suited to the search for non-variable stars. Aims. We analysed all long-cadence light curves for stars not reported as a variable so far from the Kepler satellite mission. Using the known characteristics and flaws of these data sets, we defined three different frequency ranges where we searched for non-variability. Methods. We used the Lomb-Scargle periodogram and the false-alarm probability (FAP) to analyse the cleaned data sets of 138 451 light curves. We then used log FAP ≥ - 2 to define a star as 'non-variable' in the ranges below 0.1 c/d, 0.1 to 2.0 c/d, and 2.0 to 25.0 c/d, respectively. Furthermore, we also calculated the standard deviation of the mean light curve to obtain another parameter. Results. In total, we found 14 154 stars that fulfil the set criteria. These objects are mostly cooler than the 7000 K populating the whole main sequence (MS) to the red giant branch (RGB).",

keywords = "Catalogs, Hertzsprung-Russell and C-M diagrams, Methods: data analysis, Supernovae: general",

author = "E. Paunzen and F. Binder and A. Cyniburk and Duffek, {M. N.} and F. Haberhauer and C. Heinreichsberger and H. Kohlhofer and L. Kue{\ss} and Maitzen, {H. M.} and T. Saalmann and Schanz, {A. M.} and S. Schauer and K. Schmidt and A. Tokareva and I. Wizani",

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T1 - Apparent non-variable stars from the Kepler mission

AU - Paunzen, E.

AU - Binder, F.

AU - Cyniburk, A.

AU - Duffek, M. N.

AU - Haberhauer, F.

AU - Heinreichsberger, C.

AU - Kohlhofer, H.

AU - Kueß, L.

AU - Maitzen, H. M.

AU - Saalmann, T.

AU - Schanz, A. M.

AU - Schauer, S.

AU - Schmidt, K.

AU - Tokareva, A.

AU - Wizani, I.

PY - 2024/7/1

Y1 - 2024/7/1

N2 - Context. The analysis of non-variable stars is generally neglected in the literature. However, such objects are needed for many calibration processes and for testing pulsational models. The photometric time series of the Kepler satellite mission still stand as the most accurate data available today and are excellently suited to the search for non-variable stars. Aims. We analysed all long-cadence light curves for stars not reported as a variable so far from the Kepler satellite mission. Using the known characteristics and flaws of these data sets, we defined three different frequency ranges where we searched for non-variability. Methods. We used the Lomb-Scargle periodogram and the false-alarm probability (FAP) to analyse the cleaned data sets of 138 451 light curves. We then used log FAP ≥ - 2 to define a star as 'non-variable' in the ranges below 0.1 c/d, 0.1 to 2.0 c/d, and 2.0 to 25.0 c/d, respectively. Furthermore, we also calculated the standard deviation of the mean light curve to obtain another parameter. Results. In total, we found 14 154 stars that fulfil the set criteria. These objects are mostly cooler than the 7000 K populating the whole main sequence (MS) to the red giant branch (RGB).

AB - Context. The analysis of non-variable stars is generally neglected in the literature. However, such objects are needed for many calibration processes and for testing pulsational models. The photometric time series of the Kepler satellite mission still stand as the most accurate data available today and are excellently suited to the search for non-variable stars. Aims. We analysed all long-cadence light curves for stars not reported as a variable so far from the Kepler satellite mission. Using the known characteristics and flaws of these data sets, we defined three different frequency ranges where we searched for non-variability. Methods. We used the Lomb-Scargle periodogram and the false-alarm probability (FAP) to analyse the cleaned data sets of 138 451 light curves. We then used log FAP ≥ - 2 to define a star as 'non-variable' in the ranges below 0.1 c/d, 0.1 to 2.0 c/d, and 2.0 to 25.0 c/d, respectively. Furthermore, we also calculated the standard deviation of the mean light curve to obtain another parameter. Results. In total, we found 14 154 stars that fulfil the set criteria. These objects are mostly cooler than the 7000 K populating the whole main sequence (MS) to the red giant branch (RGB).

KW - Catalogs

KW - Hertzsprung-Russell and C-M diagrams

KW - Methods: data analysis

KW - Supernovae: general

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ER -

Apparent non-variable stars from the Kepler mission

Abstract

Austrian Fields of Science 2012

Keywords

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