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• W2810364060 endingPage "A10" @default.
• W2810364060 startingPage "A10" @default.
• W2810364060 abstract "Context . Chemical element transport processes are among the crucial physical processes needed for precise stellar modelling. Atomic diffusion by gravitational settling is usually taken into account, and is essential for helioseismic studies. On the other hand, radiative accelerations are rarely accounted for, act differently on the various chemical elements, and can strongly counteract gravity in some stellar mass domains. The resulting variations in the abundance profiles may significantly affect the structure of the star. Aims . The aim of this study is to determine whether radiative accelerations impact the structure of solar-like oscillating main-sequence stars observed by asteroseismic space missions. Methods . We implemented the calculation of radiative accelerations operating on C, N, O, Ne, Na, Mg, Al, Si, S, Ca, and Fe in the CESTAM code using the single-valued parameter method. We built and compared several grids of stellar models including gravitational settling, some with and others without radiative accelerations. We considered masses in the range [0.9, 1.5] M ⊙ and three values of the metallicity around the solar value. For each metallicity we determined the mass range where differences between models due to radiative accelerations exceed the uncertainties of global seismic parameters of the Kepler Legacy sample or expected for PLATO observations. Results . We found that radiative accelerations may not be neglected for stellar masses higher than 1.1 M ⊙ at solar metallicity. The difference in age due to their inclusion in models can reach 9% for the more massive stars of our grids. We estimated that the percentage of the PLATO core program stars whose modelling would require radiative accelerations ranges between 33% and 58% depending on the precision of the seismic data. Conclusions . We conclude that in the context of Kepler , TESS, and PLATO missions which provide (or will provide) high-quality seismic data, radiative accelerations can have a significant effect when properly inferring the properties of solar-like oscillators. This is particularly important for age inferences. However, the net effect for each individual star results from the competition between atomic diffusion including radiative accelerations and other internal transport processes. Rotationally induced transport processes for instance are believed to reduce the effects of atomic diffusion. This will be investigated in a forthcoming companion paper." @default.
• W2810364060 created "2018-07-10" @default.
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• W2810364060 date "2018-10-01" @default.
• W2810364060 modified "2023-10-17" @default.
• W2810364060 title "Impacts of radiative accelerations on solar-like oscillating main-sequence stars" @default.
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• W2810364060 cites W1679498350 @default.
• W2810364060 cites W1978249523 @default.
• W2810364060 cites W1981923898 @default.
• W2810364060 cites W1982159034 @default.
• W2810364060 cites W1982717132 @default.
• W2810364060 cites W1987730961 @default.
• W2810364060 cites W1989416979 @default.
• W2810364060 cites W1990412317 @default.
• W2810364060 cites W1993241454 @default.
• W2810364060 cites W1998444865 @default.
• W2810364060 cites W2011415806 @default.
• W2810364060 cites W2013029558 @default.
• W2810364060 cites W2019744752 @default.
• W2810364060 cites W2053480642 @default.
• W2810364060 cites W2055261854 @default.
• W2810364060 cites W2059211296 @default.
• W2810364060 cites W2068926063 @default.
• W2810364060 cites W2069680204 @default.
• W2810364060 cites W2074290792 @default.
• W2810364060 cites W2074649951 @default.
• W2810364060 cites W2080001026 @default.
• W2810364060 cites W2088348456 @default.
• W2810364060 cites W2090434735 @default.
• W2810364060 cites W2100833883 @default.
• W2810364060 cites W2102054458 @default.
• W2810364060 cites W2103524055 @default.
• W2810364060 cites W2108193003 @default.
• W2810364060 cites W2110606875 @default.
• W2810364060 cites W2144799742 @default.
• W2810364060 cites W2152123318 @default.
• W2810364060 cites W2154090931 @default.
• W2810364060 cites W2161137550 @default.
• W2810364060 cites W2161791806 @default.
• W2810364060 cites W2172225503 @default.
• W2810364060 cites W2204429661 @default.
• W2810364060 cites W2276085066 @default.
• W2810364060 cites W2558422827 @default.
• W2810364060 cites W2584157606 @default.
• W2810364060 cites W2591912752 @default.
• W2810364060 cites W2767058944 @default.
• W2810364060 cites W2793733567 @default.
• W2810364060 cites W2899497983 @default.
• W2810364060 cites W2964060855 @default.
• W2810364060 cites W3099061938 @default.
• W2810364060 cites W3099488547 @default.
• W2810364060 cites W3099667223 @default.
• W2810364060 cites W3099968528 @default.
• W2810364060 cites W3100095451 @default.
• W2810364060 cites W3100389298 @default.
• W2810364060 cites W3100494033 @default.
• W2810364060 cites W3100942527 @default.
• W2810364060 cites W3101357606 @default.
• W2810364060 cites W3101787414 @default.
• W2810364060 cites W3102535523 @default.
• W2810364060 cites W3102626616 @default.
• W2810364060 cites W3103060636 @default.
• W2810364060 cites W3103483249 @default.
• W2810364060 cites W3104074886 @default.
• W2810364060 cites W3104346308 @default.
• W2810364060 cites W3106331516 @default.
• W2810364060 cites W3121310595 @default.
• W2810364060 cites W3121413621 @default.
• W2810364060 cites W4249042008 @default.
• W2810364060 cites W4291192369 @default.
• W2810364060 cites W4292291853 @default.
• W2810364060 cites W4292579650 @default.
• W2810364060 cites W4292953150 @default.
• W2810364060 cites W4293675661 @default.
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• W2810364060 doi "https://doi.org/10.1051/0004-6361/201833361" @default.
• W2810364060 hasPublicationYear "2018" @default.
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