%ACunningham, Emily%ASanderson, Robyn%AJohnston, Kathryn%APanithanpaisal, Nondh%ANess, Melissa%AWetzel, Andrew%ALoebman, Sarah%AEscala, Ivanna%AHorta, Danny%AFaucher-Giguère, Claude-André%BJournal Name: The Astrophysical Journal; Journal Volume: 934; Journal Issue: 2 %D2022%I %JJournal Name: The Astrophysical Journal; Journal Volume: 934; Journal Issue: 2 %K %MOSTI ID: 10350029 %PMedium: X %TReading the CARDs: The Imprint of Accretion History in the Chemical Abundances of the Milky Way's Stellar Halo %XAbstract In the era of large-scale spectroscopic surveys in the Local Group, we can explore using chemical abundances of halo stars to study the star formation and chemical enrichment histories of the dwarf galaxy progenitors of the Milky Way (MW) and M31 stellar halos. In this paper, we investigate using the chemical abundance ratio distributions (CARDs) of seven stellar halos from the Latte suite of FIRE-2 simulations. We attempt to infer galaxies’ assembly histories by modeling the CARDs of the stellar halos of the Latte galaxies as a linear combination of template CARDs from disrupted dwarfs, with different stellar masses M ⋆ and quenching times t 100 . We present a method for constructing these templates using present-day dwarf galaxies. For four of the seven Latte halos studied in this work, we recover the mass spectrum of accreted dwarfs to a precision of <10%. For the fraction of mass accreted as a function of t 100 , we find the residuals of 20%–30% for five of the seven simulations. We discuss the failure modes of this method, which arise from the diversity of star formation and chemical enrichment histories that dwarf galaxies can take. These failure cases can be robustly identified by the high model residuals. Although the CARDs modeling method does not successfully infer the assembly histories in these cases, the CARDs of these disrupted dwarfs contain signatures of their unusual formation histories. Our results are promising for using CARDs to learn more about the histories of the progenitors of the MW and M31 stellar halos. %0Journal Article