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arxiv: 2507.17637 · v1 · pith:SYJIIVF7new · submitted 2025-07-23 · 🌌 astro-ph.GA

Watching our Galaxy Grow Up: The Mass and Color Evolution of the Milky Way

classification 🌌 astro-ph.GA
keywords milkygalaxymassanalogsevolutionintegratedstellarevents
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Using our rich observations within the Milky Way to better understand galaxy evolution requires understanding what the Milky Way looks like "as a galaxy" -- that is, its "true" shape and abundance profiles (unskewed by observational biases), signatures of past mergers and significant accretion events, and even its total stellar mass and integrated SED, which have historically been difficult to constrain. We present a new approach to determining the Milky Way's integrated mass and colors, using recent measurements of the intrinsic density profiles of stellar populations spanning nearly 13 Gyr in time and 1.5 dex in metallicity (representing nearly all of the Galaxy's stars). We trace the evolution of the Milky Way in various diagnostic spaces, explore the impact of specific events on the present-day Milky Way's integrated properties, and use TNG50 simulations to identify "young" Galactic analogs and their eventual fates, compared to the real Milky Way's path. From the simulation comparisons, we find strong evidence for an earlier-than-average stellar mass assembly of the MW, and that present-day MW analogs follow a similar growth history, albeit at slightly later times; we also find that analogs of the early MW are in no way guaranteed to follow the MW's subsequent path. This empirical study offers new constraints on our "Galaxy as a galaxy" -- today and across cosmic time -- and on its place in the general galactic population.

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  1. Build-up and survival of the disc: From numerical models of galaxy formation to the Milky Way

    astro-ph.GA 2025-09 unverdicted novelty 5.0

    Simulations show that observed rotation in 13.5-Gyr-old alpha-rich stars constrains the Gaia-Sausage-Enceladus merger to mass ratios below 1:4, with interaction and starburst times both near 11 Gyr.