Building stellar bulges and halo cores from massive clumps observed in the DYNAMO-HST sample
Document Type
Article
Publication Date
4-1-2024
Abstract
We present N-body simulations of the process of bulge formation in disc galaxies due to inward migration of massive stellar clumps. The process is accompanied by dark halo heating, with a quasi-isothermal core replacing the initial central density cusp, transforming an initially dark matter dominated central region into a baryon dominated one. The characteristics of the clumps are chosen to be compatible with low redshift observations of stellar clumps in DYNAMO-HST galaxies, which may be relatively long lived in terms of being robust against internal starburst-instigated disruption. We thus test for disruption due to tidal stripping using different clump internal radial profiles; Plummer, Hernquist, and Jaffe, in ascending order of see per central density profile. Our calculations predict that in order for clump migration to be effective in building galactic bulges and dark halo cores, steeply increasing central clump profiles, or a less massive or less concentrated haloes, are preferred. The dependence on such factors may contribute to the diversity in observed total mass distributions and resulting rotation curves in galaxies. When the process is most efficient, a ‘bulge-halo conspiracy’, with a singular isothermal total density akin to that observed bright galaxies, results.
Recommended Citation
Hashim, Mahmoud; El-Zant, Amr; and Del Popolo, Antonino, "Building stellar bulges and halo cores from massive clumps observed in the DYNAMO-HST sample" (2024). Centre for Theoretical Physics. 258.
https://buescholar.bue.edu.eg/centre_theoretical_physics/258
Comments
Monthly Notices of the Royal Astronomical Society, Volume 529, Issue 3, April 2024, Pages 2702–2715, https://doi.org/10.1093/mnras/stae545