Metallicity and $\alpha$-element Abundance Gradients along the   Sagittarius Stream as Seen by APOGEE

Christian R. Hayes; Steven R. Majewski; Sten Hasselquist; Borja; Anguiano; Matthew Shetrone; David R. Law; Ricardo P. Schiavon; Katia Cunha,; Verne V. Smith; Rachael L. Beaton; Adrian M. Price-Whelan; Carlos Allende; Prieto; Giuseppina Battaglia; Dmitry Bizyaev; Joel R. Brownstein; Roger E.; Cohen; Peter M. Frinchaboy; D. A. Garcia-Hernandez; Ivan Lacerna; Richard R.; Lane; Szabolcs Meszaros; Christian Moni Bidin; Ricardo R. Munoz; David L.; Nidever; Audrey Oravetz; Daniel Oravetz; Kaike Pan; Alexandre Roman-Lopes,; Jennifer Sobeck; and Guy Stringfellow

arXiv:1912.06707·astro-ph.GA·February 5, 2020

Metallicity and $\alpha$-element Abundance Gradients along the Sagittarius Stream as Seen by APOGEE

Christian R. Hayes, Steven R. Majewski, Sten Hasselquist, Borja, Anguiano, Matthew Shetrone, David R. Law, Ricardo P. Schiavon, Katia Cunha,, Verne V. Smith, Rachael L. Beaton, Adrian M. Price-Whelan, Carlos Allende, Prieto, Giuseppina Battaglia, Dmitry Bizyaev

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TL;DR

This study measures metallicity and alpha-element abundance gradients along the Sagittarius stream, revealing chemical evolution patterns and progenitor characteristics through APOGEE and Gaia data analysis.

Contribution

It provides the first measurement of alpha-element gradients within the Sagittarius stream and links these to the progenitor's radial abundance variations.

Findings

01

Metallicity gradient of 0.12 dex/Gyr in the stream.

02

First measurement of alpha-element gradients in the stream.

03

Chemical differences between the core and the stream.

Abstract

Using 3D positions and kinematics of stars relative to the Sagittarius (Sgr) orbital plane and angular momentum, we identify 166 Sgr stream members observed by the Apache Point Observatory Galactic Evolution Experiment (APOGEE) that also have Gaia DR2 astrometry. This sample of 63/103 stars in the Sgr trailing/leading arm are combined with an APOGEE sample of 710 members of the Sgr dwarf spheroidal core (385 of them newly presented here) to establish differences of 0.6 dex in median metallicity and 0.1 dex in [ $α$ /Fe] between our Sgr core and dynamically older stream samples. Mild chemical gradients are found internally along each arm, but these steepen when anchored by core stars. With a model of Sgr tidal disruption providing estimated dynamical ages (i.e., stripping times) for each stream star, we find a mean metallicity gradient of 0.12 +/- 0.03 dex/Gyr for stars stripped from…

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