The Chemical Enrichment of the Milky Way Disk Evaluated Using Conditional Abundances
Abstract
Chemical abundances of Milky Way disk stars are empirical tracers of its enrichment history. However, they capture joint-information that is valuable to disentangle. In this work, we quantify how individual abundances evolve across the present-day Galactic radius, at fixed supernovae contribution ([Fe/H], [Mg/Fe]). We use 18,135 Apache Point Observatory Galactic Evolution Experiment Data Release 17 red clump stars and 7943 GALactic Archaeology with HERMES Data Release 3 main-sequence stars to compare the abundance distributions conditioned on ([Fe/H], [Mg/Fe]) across 3-13 kpc and 6.5-9.5 kpc, respectively. We examine 15 elements: C, N, Al, K (light), O, Si, S, Ca, (α), Mn, Ni, Cr, Cu, (iron-peak) Ce, Ba (s-process) and Eu (r-process). We find that the conditional neutron-capture and light elements most significantly trace variations in the disk's enrichment history, with absolute conditional radial gradients ≤0.03 dex kpc-1. The other elements studied have absolute conditional gradients ≲0.01 dex kpc-1. We uncover structured conditional abundance variations with [Fe/H] for the low-α, but not the high-α , sequence. The average scatter between the mean conditional abundances at different radii is σ intrinsic ≈ 0.02 dex (Ce, Eu, Ba σ intrinsic > 0.05 dex). These results serve as a measure of the magnitude via which different elements trace Galactic radial enrichment history once fiducial supernovae correlations are accounted for. Furthermore, we uncover subtle systematic variations in moments of the conditional abundance distributions and bimodal differences in [Al/Fe]. These suggest a nonuniform enrichment of each chemical cell, and will presumably constrain chemical evolution models of the Galaxy.
- Publication:
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The Astrophysical Journal
- Pub Date:
- February 2023
- DOI:
- 10.3847/1538-4357/aca8a1
- arXiv:
- arXiv:2206.02772
- Bibcode:
- 2023ApJ...943...92R
- Keywords:
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- Milky Way Galaxy;
- Milky Way disk;
- Stellar abundances;
- Astrostatistics techniques;
- Chemical abundances;
- 1054;
- 1050;
- 1577;
- 1886;
- 224;
- Astrophysics - Astrophysics of Galaxies
- E-Print:
- Submitted to ApJ