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W3039610026 endingPage "A73" @default.
W3039610026 startingPage "A73" @default.
W3039610026 abstract "We study the impact of accretion from protoplanetary discs on stellar evolution of AFG-type stars. We use a simplified disc model computed using the Two-Pop-Py code that contains the growth and drift of dust particles in the protoplanetary disc. It is used to model the accretion scenarios for a range of physical conditions of protoplanetary discs. Two limiting cases are combined with the evolution of stellar convective envelopes computed using the Garstec stellar evolution code. We find that the accretion of metal-poor (gas) or metal-rich (dust) material has a significant impact on the chemical composition of the stellar convective envelope. As a consequence, the evolutionary track of the star diverts from the standard scenario predicted by canonical stellar evolution models, which assume a constant and homogeneous chemical composition after the assembly of the star has finished. In the case of the Sun, we find a modest impact on the solar chemical composition. Accretion of metal-poor material indeed reduces the overall metallicity of the solar atmosphere, and it is consistent, within the uncertainty, with the solar Z reported by Caffau et al. (2011), but our model is not consistent with the measurement by Asplund et al. (2009). Another effect is the change of the position of the star in the colour-magnitude diagram. We compare our predictions to a set of open clusters from the Gaia DR2 and show that it is possible to produce a scatter close to the turn-off of young clusters that could contribute to explain the observed scatter in CMDs. Detailed measurements of metallicities and abundances in the nearby open clusters will provide a stringent observational test of our proposed scenario." @default.
W3039610026 created "2020-07-10" @default.
W3039610026 creator A5004490041 @default.
W3039610026 creator A5021223029 @default.
W3039610026 creator A5059128021 @default.
W3039610026 creator A5061736270 @default.
W3039610026 date "2020-09-01" @default.
W3039610026 modified "2023-10-10" @default.
W3039610026 title "The solar abundance problem and eMSTOs in clusters" @default.
W3039610026 cites W1567460774 @default.
W3039610026 cites W1659875532 @default.
W3039610026 cites W2000313707 @default.
W3039610026 cites W2000491621 @default.
W3039610026 cites W2000657683 @default.
W3039610026 cites W2014488392 @default.
W3039610026 cites W2019282362 @default.
W3039610026 cites W2023381428 @default.
W3039610026 cites W2027075281 @default.
W3039610026 cites W2030196560 @default.
W3039610026 cites W2041172302 @default.
W3039610026 cites W2045065683 @default.
W3039610026 cites W2048450088 @default.
W3039610026 cites W2055324096 @default.
W3039610026 cites W2066293328 @default.
W3039610026 cites W2085012582 @default.
W3039610026 cites W2096471541 @default.
W3039610026 cites W2100183643 @default.
W3039610026 cites W2105449040 @default.
W3039610026 cites W2119087912 @default.
W3039610026 cites W2124201251 @default.
W3039610026 cites W2127556270 @default.
W3039610026 cites W2136673164 @default.
W3039610026 cites W2151497551 @default.
W3039610026 cites W2163704918 @default.
W3039610026 cites W2167813214 @default.
W3039610026 cites W2168336164 @default.
W3039610026 cites W2211049752 @default.
W3039610026 cites W2269715494 @default.
W3039610026 cites W2284959507 @default.
W3039610026 cites W2396220906 @default.
W3039610026 cites W2525633480 @default.
W3039610026 cites W2594441346 @default.
W3039610026 cites W2603714687 @default.
W3039610026 cites W2611880848 @default.
W3039610026 cites W2619573834 @default.
W3039610026 cites W2737092486 @default.
W3039610026 cites W2745478204 @default.
W3039610026 cites W2797288737 @default.
W3039610026 cites W2804190688 @default.
W3039610026 cites W2884912473 @default.
W3039610026 cites W2890004815 @default.
W3039610026 cites W2890900272 @default.
W3039610026 cites W2899497983 @default.
W3039610026 cites W2913398280 @default.
W3039610026 cites W2917825507 @default.
W3039610026 cites W2921275114 @default.
W3039610026 cites W2926141224 @default.
W3039610026 cites W2950756021 @default.
W3039610026 cites W3000174947 @default.
W3039610026 cites W3020966503 @default.
W3039610026 cites W3097976388 @default.
W3039610026 cites W3098102081 @default.
W3039610026 cites W3098244789 @default.
W3039610026 cites W3098698975 @default.
W3039610026 cites W3098974664 @default.
W3039610026 cites W3099314676 @default.
W3039610026 cites W3099692620 @default.
W3039610026 cites W3099714297 @default.
W3039610026 cites W3100181080 @default.
W3039610026 cites W3101217759 @default.
W3039610026 cites W3101238916 @default.
W3039610026 cites W3101288677 @default.
W3039610026 cites W3101303876 @default.
W3039610026 cites W3101442198 @default.
W3039610026 cites W3101627046 @default.
W3039610026 cites W3101689680 @default.
W3039610026 cites W3102054143 @default.
W3039610026 cites W3103031271 @default.
W3039610026 cites W3103488789 @default.
W3039610026 cites W3103681827 @default.
W3039610026 cites W3103742904 @default.
W3039610026 cites W3103907543 @default.
W3039610026 cites W3104287791 @default.
W3039610026 cites W3104362563 @default.
W3039610026 cites W3104439972 @default.
W3039610026 cites W3104938269 @default.
W3039610026 cites W3105319714 @default.
W3039610026 cites W3105443092 @default.
W3039610026 cites W3105469123 @default.
W3039610026 cites W3106079572 @default.
W3039610026 cites W3122886126 @default.
W3039610026 cites W3124281728 @default.
W3039610026 cites W4288084037 @default.
W3039610026 cites W4289253060 @default.
W3039610026 cites W4289462480 @default.
W3039610026 cites W4289710129 @default.
W3039610026 cites W4292406582 @default.
W3039610026 cites W4293676761 @default.