Galactic Doppelgangers: The Chemical Similarity among Field Stars and among Stars with a Common Birth Origin

M. Ness, H. W. Rix, David W. Hogg, A. R. Casey, J. Holtzman, M. Fouesneau, G. Zasowski, D. Geisler, M. Shetrone, D. Minniti, Peter M. Frinchaboy, Alexandre Roman-Lopes

Research output: Contribution to journalArticlepeer-review

68 Citations (Scopus)

Abstract

We explore to what extent stars within Galactic disk open clusters resemble each other in the high-dimensional space of their photospheric element abundances and contrast this with pairs of field stars. Our analysis is based on abundances for 20 elements, homogeneously derived from APOGEE spectra (with carefully quantified uncertainties of typically 0.03 dex). We consider 90 red giant stars in seven open clusters and find that most stars within a cluster have abundances in most elements that are indistinguishable (in a X2-sense) from those of the other members, as expected for stellar birth siblings. An analogous analysis among pairs of >1000 field stars shows that highly significant abundance differences in the 20 dimensional space can be established for the vast majority of these pairs, and that the APOGEE-based abundance measurements have high discriminating power. However, pairs of field stars whose abundances are indistinguishable even at 0.03 dex precision exist: ∼0.3% of all field star pairs and ∼1.0% of field star pairs at the same (solar) metallicity [Fe/H]=0±0.02. Most of these pairs are presumably not birth siblings from the same cluster, but rather doppelgngers. Our analysis implies that chemical tagging in the strict sense, identifying birth siblings for typical disk stars through their abundance similarity alone, will not work with such data. However, our approach shows that abundances have extremely valuable information for probabilistic chemo-orbital modeling, and combined with velocities, we have identified new cluster members from the field.

Original languageEnglish
Article number198
JournalAstrophysical Journal
Volume853
Issue number2
DOIs
Publication statusPublished - 1 Feb 2018
Externally publishedYes

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