Fractured but Whole: Towards Understanding the Smallest Substructure of the Milky Way
The Milky Way is believed to have been assembled through hierarchical mergers to form the Galactic structure observed today. Galaxies incorporated into the Milky Way have their stars scattered and displaced, no longer retaining the spatial coherence they once had. To understand these mergers and their impact on the structure of the Milky Way is a fundamental goal of Galactic Archaeology, one which is possible thanks to recent advancements in both observational and computational astronomy. In this work, data sets are assembled from large-scale stellar surveys to discover the smallest of these mergers, put them in context with the currently known Milky Way structures, and track chemical evolution progress throughout the Galaxy. Associations of remnants to known Milky Way substructures are recovered, such as Gaia-Sausage-Enceladus, the Helmi Streams, Thamnos, the Splashed Disk, the Metal-Weak Thick Disk, and LMS-1 (Wukong). Previously discovered remnants are, for the first time, analyzed in exhaustive detail to compare relations between discoveries, showing remarkable consistency across the field even when using differing detection methods. Evidence of remnants connected to Globular Clusters is presented, while no known Dwarf Galaxy connections are recovered. This work presents a crucial step towards understanding the smallest substructure of the Milky Way.
History
Date Modified
2022-05-04Defense Date
2022-04-01CIP Code
- 40.0801
Research Director(s)
Timothy C. BeersDegree
- Doctor of Philosophy
Degree Level
- Doctoral Dissertation
Alternate Identifier
1313807805Library Record
6208944OCLC Number
1313807805Program Name
- Physics