The Milky Way in Context: Building an integral-field spectrograph data cube of the Galaxy

The Milky Way (MW) is by far the best-studied galaxy and has been regarded as an ideal laboratory for understanding galaxy evolution. However, direct comparisons of Galactic and extra-galactic observations are marred by many challenges, including selection effects and differences in observations and methodology. In this study, we present a novel code GalCraft to address these challenges by generating mock integral-field spectrograph data cubes of the MW using simple stellar population models and a mock stellar catalog of the Galaxy derived from E-Galaxia. The data products are in the same format as external galaxies, allowing for direct comparisons. We investigate the ability of pPXF to recover kinematics and stellar population properties for an edge-on mock observation of the MW. We confirm that pPXF can distinguish kinematic and stellar population differences between thin and thick disks. However, pPXF struggles to recover star formation history, where the SFR is overestimated in the ranges between 2-4 and 12-14 Gyr compared to the expected values. This is likely due to the template age spacing, pPXF regularization algorithm, and spectral similarities in old population templates. Furthermore, we find systematic offsets in the recovered kinematics, potentially due to insufficient spectral resolution and the variation of line-of-sight velocity with [M/H] and age through a line-of-sight. With future higher resolution and multi-[$\alpha$/Fe] SSP templates, GalCraft will be useful to identify key signatures such as [$\alpha$/Fe]-[M/H] distribution at different $R$ and $|z|$ and potentially measure radial migration and kinematic heating efficiency to study detailed chemodynamical evolution of MW-like galaxies.
Comment: 27 pages, 27 figures (8 figs in appendix), submitted to MNRAS. Comments are welcome