Icarus: A Flat and Fast Prograde Stellar Stream in the Milky Way Disk

We explore the local volume of the Milky Way via chemical and kinematical measurements from high-quality astrometric and spectroscopic data recently released by the Gaia, APOGEE, and GALAH programs. We chemically select 1137 stars up to 2.5 kpc of the Sun and [Fe/H] ≤ −1.0 dex, and find evidence of statistically significant substructures. Clustering analysis in velocity space classifies 163 objects into eight kinematical groups, whose origin is further investigated with high-resolution N-body numerical simulations of single merging events. The two retrograde groups appear associated with Gaia-Sausage-Enceladus (GSE), while the slightly prograde group could be connected to GSE or possibly Wukong. We find evidence of a new 44-member-strong prograde stream that we name Icarus; to our knowledge, Icarus is the fast-rotating stream closest to the Galactic disk to date ($langle {Z}_{max } angle lesssim 0.5,mathrm{kpc}$, 〈V + V LSR〉 sime 231 km s−1). Its peculiar chemical (〈[Fe/H]〉 sime −1.45, 〈[Mg/Fe]〉 sime −0.02) and dynamical (mean eccentricity sime 0.11) properties are consistent with the accretion of debris from a dwarf galaxy progenitor with a stellar mass of ~109 M ☉ on an initial prograde low-inclination orbit, ~10°. The remaining prograde groups are either streams previously released by the same progenitor of Icarus (or Nyx), or remnants from different satellites accreted on initial orbits at higher inclination.