Torrey, Paul, AS-Astronomy (ASTR), University of Virginia
Abstract
We present a novel method for systematically assessing the impact of central potential fluctuations associated with bursty outflows on the structure of dark matter halos for dwarf and ultra-faint galaxies. Specifically, we use dark-matter-only simulations augmented with a manually-added massive particle that modifies the central potential and approximately accounts for a centrally-concentrated baryon component. This approach enables precise control over the magnitude, frequency, and timing of when rapid outflow events occur. We demonstrate that this method can reproduce the established result of core formation for systems that undergo multiple episodes of bursty outflows. In contrast, we also find that equivalent models that undergo only a single (or small number of) burst episodes do not form cores with the same efficacy. This is important because many UFDs in the local universe are observed to have tightly constrained star formation histories that are best described by a single, early burst of star formation. Using a suite of cosmological, zoom-in simulations, we identify the regimes in which single bursts can and cannot form a cored density profile. Our results suggest that it may be difficult to form cores in UFD-mass systems with a single, early burst regardless of its magnitude.
Degree
BS (Bachelor of Science)
Keywords
Galaxy dark matter halos; Galaxy structure; Cold dark matter
Mostow, Olivia. How Many Bursts Does it Take to Form a Core at the Center of a Galaxy?. University of Virginia, Astronomy, BS (Bachelor of Science), 2025-05-09, https://doi.org/10.18130/s4wq-qc83.
