A Diffuse Metal-poor Component of the Sagittarius Stream Revealed by the H3 Survey
Date
2020
Authors
Johnson, Benjamin D
Conroy, Charlie
Naidu, Rohan
Bonaca, Ana
Zaritsky, D
Ting, Yuan-Sen
Cargile, Phillip A
Han, Jiwon Jesse
Speagle, Joshua S
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IOP Publishing
Abstract
The tidal disruption of the Sagittarius dwarf galaxy has generated a spectacular stream of stars wrapping around the entire Galaxy. We use data from Gaia and the H3 Stellar Spectroscopic Survey to identify $823$ high-quality Sagittarius members based on their angular momenta. The H3 Survey is largely unbiased in metallicity, and so our sample of Sagittarius members is similarly unbiased. Stream stars span a wide range in [Fe/H] from −0.2 to ≈−3.0, with a mean overall metallicity of $\langle [\mathrm{Fe}/{\rm{H}}]\rangle =-0.99$. We identify a strong metallicity dependence to the kinematics of the stream members. At [Fe/H] > −0.8 nearly all members belong to the well-known cold (${\sigma }_{v}\lt 20\,\mathrm{km}\,{{\rm{s}}}^{-1}$) leading and trailing arms. At intermediate metallicities (−1.9 < [Fe/H] < −0.8) a significant population (24%) emerges of stars that are kinematically offset from the cold arms. These stars also appear to have hotter kinematics. At the lowest metallicities ([Fe/H] lesssim −2), the majority of stars (69%) belong to this kinematically offset diffuse population. Comparison to simulations suggests that the diffuse component was stripped from the Sagittarius progenitor at earlier epochs, and therefore resided at larger radius on average than the colder metal-rich component. We speculate that this kinematically diffuse, low-metallicity population is the stellar halo of the Sagittarius progenitor system.
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Keywords
Milky Way Galaxy, Dwarf galaxies, Tidal disruption, Sagittarius dwarf spheroidal galaxy
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Source
The Astrophysical Journal
Type
Journal article
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Open Access
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