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• W4384207300 endingPage "18" @default.
• W4384207300 startingPage "18" @default.
• W4384207300 abstract "Abstract Large-scale surveys will provide spectroscopy for ∼50 million resolved stars in the Milky Way and Local Group. However, these data will have a high degree of heterogeneity and most will be low-resolution ( R < 10,000), posing challenges to measuring consistent and reliable stellar labels. Here, we introduce a framework for identifying and remedying these issues. By simultaneously fitting the full spectrum and Gaia photometry with the Payne , we measure ∼30 abundances for eight metal-poor red giants in M15. From degraded quality Keck/HIRES spectra, we evaluate trends with resolution and signal-to-noise ratio (S/N) and find that (i) ∼20 abundances are recovered consistently within ≲0.1 dex agreement and with ≲0.05–0.15 dex systematic uncertainties from 10,000 ≲ R ≲ 80,000; (ii) for nine elements (C, Mg, Ca, Sc, Ti, Fe, Ni, Y, and Nd), this systematic precision and accuracy extends down to R ∼ 2500; and (iii) while most elements do not exhibit strong S/N-dependent systematics, there are nonnegligible biases for four elements (C, Mg, Ca, and Dy) below S/N ∼ 10 pixel −1 . We compare statistical uncertainties from Markov Chain Monte Carlo sampling to the easier-to-compute Cramér–Rao bounds and find that they agree for ∼85% of elements, indicating the latter to be a reliable and faster way to estimate uncertainties. Our analysis illustrates the great promise of low-resolution spectroscopy for stellar chemical abundance work in the low-metallicity regime, and ongoing improvements to stellar models (e.g., 3D-NLTE physics) will only further extend its viability to more stars, more elements, and higher precision and accuracy." @default.
• W4384207300 created "2023-07-14" @default.
• W4384207300 creator A5042006626 @default.
• W4384207300 creator A5070437864 @default.
• W4384207300 creator A5090020735 @default.
• W4384207300 date "2023-07-01" @default.
• W4384207300 modified "2023-09-26" @default.
• W4384207300 title "Validating Stellar Abundance Measurements from Multiresolution Spectroscopy" @default.
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