[IPARCOS astro] Apr 19th, 2024 "Resolving ionised winds and thick disks in the SAMI Galaxy Survey"
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- Опубліковано 27 вер 2024
- [IPARCOS astro-seminar] 19/04/2024
Dr. Henry Zovaro (Australian National University, ANU, Australia)
Title: Resolving ionised winds and thick disks in the SAMI Galaxy Survey
Abstract: Understanding the cycling of baryons within and around galaxies is key to unravelling the formation histories of present-day galaxies. Star formation is a key driver of the baryon cycle: winds and outflows driven by intense episodes of star formation can eject material from the disk and create a “galactic fountain”, providing fuel for successive epochs of star formation. These winds may also lead to the formation of a “thick disk” of diffuse ionised gas that is kinematically distinct from the “thin disk” comprising the HII regions. Providing integral field spectroscopy for over 3000 galaxies, the SAMI Galaxy Survey enables us to study the baryon cycle in a large sample of local galaxies. In particular, the high spectral resolution of SAMI enables us to kinematically distinguish winds and thick disks, traced by broad emission line components, from the star-forming thin disk, traced by the narrow component, giving us the opportunity to determine the fundamental differences between galaxies harbouring winds and/or thick disks and those without. Even when controlling for physical properties (e.g., stellar mass and SFR) and observational effects (e.g., angular scale, inclination and S/N), we find that galaxies with winds/thick disks exhibit significantly higher global SFR surface densities, which is consistent with previous studies. Interestingly, we find that the presence of complex emission line profiles in any given region within a galaxy is driven by both local and global SFR surface density, which may be a result of winds spreading laterally once they leave the disk. I will conclude by discussing future prospects for research in this field using the upcoming Hector Galaxy Survey, which will facilitate more detailed studies of spectrally resolved winds and thick disks in a much larger sample of over 10,000 nearby galaxies.
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