APOGEE Chemical Abundance Patterns of the Massive Milky Way Satellites

Sten Hasselquist; Christian R. Hayes; Jianhui Lian; David H. Weinberg,; Gail Zasowski; Danny Horta; Rachael Beaton; Diane K. Feuillet; Elisa R.; Garro; Carme Gallart; Verne V. Smith; Jon A. Holtzman; Dante Minniti; Ivan; Lacerna; Matthew Shetrone; Henrik J\"onsson; Maria-Rosa L. Cioni; Sean P.; Fillingham; Katia Cunha; Robert O\'Connell; Jos\'e G. Fern\'andez-Trincado,; Ricardo R. Mu\~noz; Ricardo Schiavon; Andres Almeida; Borja Anguiano; Timothy; C. Beers; Dmitry Bizyaev; Joel R. Brownstein; Roger E. Cohen; Peter; Frinchaboy; D. A. Garc\'ia-Hern\'andez; Doug Geisler; Richard R. Lane; Steven; R. Majewski; David L. Nidever; Christian Nitschelm; Joshua Povick; Adrian; Price-Whelan; Alexandre Roman-Lopes; Margarita Rosado; Jennifer Sobeck; Guy; Stringfellow; Octavio Valenzuela; Sandro Villanova; Fiorenzo Vincenzo

arXiv:2109.05130·astro-ph.GA·January 5, 2022

APOGEE Chemical Abundance Patterns of the Massive Milky Way Satellites

Sten Hasselquist, Christian R. Hayes, Jianhui Lian, David H. Weinberg,, Gail Zasowski, Danny Horta, Rachael Beaton, Diane K. Feuillet, Elisa R., Garro, Carme Gallart, Verne V. Smith, Jon A. Holtzman, Dante Minniti, Ivan, Lacerna, Matthew Shetrone, Henrik J\"onsson

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TL;DR

This study uses APOGEE high-resolution spectra to analyze chemical abundance patterns in massive Milky Way satellite galaxies, revealing their star formation histories and the impact of environment on chemical evolution.

Contribution

It provides the first detailed chemical abundance analysis of multiple MW satellites, linking abundance patterns to star formation episodes and galaxy environment effects.

Findings

01

SMC experienced a starburst 3-4 Gyr before LMC.

02

Sagittarius and Fornax show evidence of earlier secondary star formation.

03

GSE shows no recent starburst but had the strongest initial star formation.

Abstract

The SDSS-IV Apache Point Observatory Galactic Evolution Experiment (APOGEE) survey has obtained high-resolution spectra for thousands of red giant stars distributed among the massive satellite galaxies of the Milky Way (MW): the Large and Small Magellanic Clouds (LMC/SMC), the Sagittarius Dwarf (Sgr), Fornax (Fnx), and the now fully disrupted \emph{Gaia} Sausage/Enceladus (GSE) system. We present and analyze the APOGEE chemical abundance patterns of each galaxy to draw robust conclusions about their star formation histories, by quantifying the relative abundance trends of multiple elements (C, N, O, Mg, Al, Si, Ca, Fe, Ni, and Ce), as well as by fitting chemical evolution models to the [ $α$ /Fe]-[Fe/H] abundance plane for each galaxy. Results show that the chemical signatures of the starburst in the MCs observed by Nidever et al. in the $α$ -element abundances extend to C+N, Al,…

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