A Galactic Self-Portrait: Density Structure and Integrated Properties of the Milky Way Disk

TL;DR

This paper uses APOGEE data to analyze the density structure and properties of the Milky Way disk, revealing differences between low- and high-alpha stellar populations and estimating the galaxy's total stellar mass and color.

Contribution

It provides a detailed characterization of the Milky Way's disk structure and integrated properties based on a large stellar sample, including new estimates of mass and scale length.

Findings

Low-alpha disk has longer scale lengths and shorter scale heights.

High-alpha disk has shorter scale lengths and larger scale heights.

Total stellar mass of the Milky Way disk is approximately 5.27 x 10^{10} solar masses.

Abstract

The evolution history of the Milky Way disk is imprinted in the ages, positions, and chemical compositions of individual stars. In this study, we derive the intrinsic density distribution of different stellar populations using the final data release of the Apache Point Observatory Galactic Evolution Experiment (APOGEE) survey. A total of 203,197 red giant branch stars are used to sort the stellar disk ($R \leq 20$ kpc) into sub-populations of metallicity ($\Delta$[M/H]$= 0.1$ dex), age ($\Delta \log(\frac{\textrm{age}}{\textrm{yr}})= 0.1$), and $\alpha$-element abundances ([$\alpha$/M]). We fit the present-day structural parameters and density distribution of each stellar sub-population after correcting for the survey selection function. The low-$\alpha$ disk is characterized by longer scale lengths and shorter scale heights, and is best fit by a broken exponential radial profile for each population. The high-$\alpha$ disk is characterized by shorter scale lengths and larger scale heights, and is generally well-approximated by a single exponential radial profile. These results are applied to produce new estimates of the integrated properties of the Milky Way from early times to the present day. We measure the total stellar mass of the disk to be $5.27^{+0.2}_{-1.5} \times 10^{10}$ M$_\odot$ and the average mass-weighted scale length is $R_{d} = 2.37 \pm 0.2$ kpc. The Milky Way's present-day color of $(g-r) = 0.72 \pm 0.02$ is consistent with the classification of a red spiral galaxy, although it has only been in the "green valley" region of the galaxy color-mass diagram for the last $\sim 3$ Gyr.