What question did this study set out to answer?

The aim is to analyze the chemical composition of the Icarus stream and its progenitor galaxy.

March 26, 2026Open Access

Chemical characterization of the Icarus stream progenitor

Key Points

The aim is to analyze the chemical composition of the Icarus stream and its progenitor galaxy.
Identified a chemo-dynamical substructure in the Galactic disk.
Used Gaia in collaboration with ground-based spectroscopic surveys.
Obtained accurate abundance measurements in various diagnostic chemical spaces.
Presented first results from the HARP@TNG observations.
Found consistent evidence for an accreted satellite resembling a LMC-like galaxy.
Analyzed specific chemical abundance ratios to understand the origins of the Icarus stream.

Abstract

The search for accreted satellites in the Galactic disk is a challenging task, to which Gaia plays a crucial role in synergy with ground-based spectroscopic surveys. In this context, we identified a chemo-dynamical substructure, Icarus, that is consistent with the debris of a LMC-like galaxy accreted onto a primordial disk on an initial prograde low-inclination orbit (Re Fiorentin et al. 2021, 2024). In order to gain deeper insight on the Icarus stream progenitor, we are obtaining accurate abundances to perform an extended analysis in diagnostic chemical spaces such as (C+N)/O-Ni/Fe as well as Al/Fe-Mg/Mn, Ba/Mg-Mg/H and Y/Eu, Eu/Mg, Ba/Y vs Fe/H. Here, we present the first results based on HARP@TNG and discuss the ex-situ scenario.

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Cite This Study

Spagna et al. (Wed,) studied this question.

synapsesocial.com/papers/69c4cdcdfdc3bde44891a916 https://doi.org/https://doi.org/10.5281/zenodo.18672332

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