Detections of solar-like oscillations in dwarfs and subgiants with Kepler DR25 short-cadence data

Mathur S, García RA, Breton S, Santos ARG, Mosser B, Huber D, Sayeed M, Bugnet LA, Chontos A. 2022. Detections of solar-like oscillations in dwarfs and subgiants with Kepler DR25 short-cadence data. Astronomy & Astrophysics. 657, A31.

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Mathur, S.; García, R. A.; Breton, S.; Santos, A. R. G.; Mosser, B.; Huber, D.; Sayeed, M.; Bugnet, LisaISTA ; Chontos, A.
Abstract
During the survey phase of the Kepler mission, several thousand stars were observed in short cadence, allowing for the detection of solar-like oscillations in more than 500 main-sequence and subgiant stars. These detections showed the power of asteroseismology in determining fundamental stellar parameters. However, the Kepler Science Office discovered an issue in the calibration that affected half of the store of short-cadence data, leading to a new data release (DR25) with corrections on the light curves. In this work, we re-analyzed the one-month time series of the Kepler survey phase to search for solar-like oscillations that might have been missed when using the previous data release. We studied the seismic parameters of 99 stars, among which there are 46 targets with new reported solar-like oscillations, increasing, by around 8%, the known sample of solar-like stars with an asteroseismic analysis of the short-cadence data from this mission. The majority of these stars have mid- to high-resolution spectroscopy publicly available with the LAMOST and APOGEE surveys, respectively, as well as precise Gaia parallaxes. We computed the masses and radii using seismic scaling relations and we find that this new sample features massive stars (above 1.2 M⊙ and up to 2 M⊙) and subgiants. We determined the granulation parameters and amplitude of the modes, which agree with the scaling relations derived for dwarfs and subgiants. The stars studied here are slightly fainter than the previously known sample of main-sequence and subgiants with asteroseismic detections. We also studied the surface rotation and magnetic activity levels of those stars. Our sample of 99 stars has similar levels of activity compared to the previously known sample and is in the same range as the Sun between the minimum and maximum of its activity cycle. We find that for seven stars, a possible blend could be the reason for the non-detection with the early data release. Finally, we compared the radii obtained from the scaling relations with the Gaia ones and we find that the Gaia radii are overestimated by 4.4%, on average, compared to the seismic radii, with a scatter of 12.3% and a decreasing trend according to the evolutionary stage. In addition, for homogeneity purposes, we re-analyzed the DR25 of the main-sequence and subgiant stars with solar-like oscillations that were previously detected and, as a result, we provide the global seismic parameters for a total of 525 stars.
Publishing Year
Date Published
2022-01-01
Journal Title
Astronomy & Astrophysics
Publisher
EDP Sciences
Acknowledgement
This paper includes data collected by the Kepler mission. Funding for the Kepler mission is provided by the NASA Science Mission directorate. Some of the data presented in this paper were obtained from the Mikulski Archive for Space Telescopes (MAST). STScI is operated by the Association of Universities for Research in Astronomy, Inc., under NASA contract NAS5-26555. S. M. acknowledges support by the Spanish Ministry of Science and Innovation with the Ramon y Cajal fellowship number RYC-2015-17697 and the grant number PID2019-107187GB-I00. R. A. G. and S. N. B acknowledge the support from PLATO and GOLF CNES grants. A. R. G. S. acknowledges the support from National Aeronautics and Space Administration under Grant NNX17AF27G and STFC consolidated grant ST/T000252/1. D.H. acknowledges support from the Alfred P. Sloan Foundation, the National Aeronautics and Space Administration (80NSSC19K0597), and the National Science Foundation (AST-1717000). M.S. is supported by the Research Corporation for Science Advancement through Scialog award #26080. Guoshoujing Telescope (the Large Sky Area Multi-Object Fiber Spectroscopic Telescope LAMOST) is a National Major Scientific Project built by the Chinese Academy of Sciences. Funding for the project has been provided by the National Development and Reform Commission. LAMOST is operated and managed by the National Astronomical Observatories, Chinese Academy of Sciences.
Volume
657
Article Number
A31
ISSN
eISSN
IST-REx-ID

Cite this

Mathur S, García RA, Breton S, et al. Detections of solar-like oscillations in dwarfs and subgiants with Kepler DR25 short-cadence data. Astronomy & Astrophysics. 2022;657. doi:10.1051/0004-6361/202141168
Mathur, S., García, R. A., Breton, S., Santos, A. R. G., Mosser, B., Huber, D., … Chontos, A. (2022). Detections of solar-like oscillations in dwarfs and subgiants with Kepler DR25 short-cadence data. Astronomy & Astrophysics. EDP Sciences. https://doi.org/10.1051/0004-6361/202141168
Mathur, S., R. A. García, S. Breton, A. R. G. Santos, B. Mosser, D. Huber, M. Sayeed, Lisa Annabelle Bugnet, and A. Chontos. “Detections of Solar-like Oscillations in Dwarfs and Subgiants with Kepler DR25 Short-Cadence Data.” Astronomy & Astrophysics. EDP Sciences, 2022. https://doi.org/10.1051/0004-6361/202141168.
S. Mathur et al., “Detections of solar-like oscillations in dwarfs and subgiants with Kepler DR25 short-cadence data,” Astronomy & Astrophysics, vol. 657. EDP Sciences, 2022.
Mathur S, García RA, Breton S, Santos ARG, Mosser B, Huber D, Sayeed M, Bugnet LA, Chontos A. 2022. Detections of solar-like oscillations in dwarfs and subgiants with Kepler DR25 short-cadence data. Astronomy & Astrophysics. 657, A31.
Mathur, S., et al. “Detections of Solar-like Oscillations in Dwarfs and Subgiants with Kepler DR25 Short-Cadence Data.” Astronomy & Astrophysics, vol. 657, A31, EDP Sciences, 2022, doi:10.1051/0004-6361/202141168.
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