Differences in elemental abundances between CI chondrites and the solar photosphere

Differences in elemental abundances between CI chondrites and the solar photosphere

CI chondrites have been a proxy for the solar system since the mid‐20th century. The photospheric and CI chondrite abundances (P and CI, respectively) show a strong correlation. CI as a proxy is also justified by the (i) smoothness of their abundances plotted as a function of odd mass number and (ii...

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Veröffentlicht in:Meteoritics & planetary science 2024-12, Vol.59 (12), p.3193-3214
Hauptverfasser: Jurewicz, A. J. G., Amarsi, A. M., Burnett, D. S., Grevesse, N.
Format: Artikel
Sprache:eng
Schlagworte:
Abundance
Atomic properties
Chondrites
Error analysis
Error correction
Genesis mission
Photosphere
Smoothness
Solar system
Solar wind
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Zusammenfassung:CI chondrites have been a proxy for the solar system since the mid‐20th century. The photospheric and CI chondrite abundances (P and CI, respectively) show a strong correlation. CI as a proxy is also justified by the (i) smoothness of their abundances plotted as a function of odd mass number and (ii) agreement within the error of P as determined spectroscopically. But our statistical assessment of spectroscopic studies and solar wind from the Genesis mission indicates that the small, ~10%–30%, differences (residuals) between CI and P depend on the 50% condensation temperature (Tc50). So, if CI is to be used as a proxy for P, Cosmochemists may want to add a correction to individual elements. Our work is consistent with two published hypotheses: that (i) residuals are linear with Tc50 and (ii) that elements having Tc50 > 1343 K are depleted relative to those with 495 K 
ISSN:1086-9379
1945-5100
DOI:10.1111/maps.14272