Your search keyword '"Kyle A. Oman"' showing total 5 results

1. Gas and Star Formation in Satellites of Milky Way Analogs

Author

Michael G. Jones, David J. Sand, Ananthan Karunakaran, Kristine Spekkens, Kyle A. Oman, Paul Bennet, Gurtina Besla, Denija Crnojević, Jean-Charles Cuillandre, Catherine E. Fielder, Stephen Gwyn, and Burçin Mutlu-Pakdil

Subjects

Dwarf galaxies, Galaxy quenching, Ram pressure stripped tails, Interstellar atomic gas, Circumgalactic medium, Astrophysics, QB460-466

Abstract

We have imaged the entirety of eight (plus one partial) Milky Way (MW)–like satellite systems, a total of 42 (45) satellites, from the Satellites Around Galactic Analogs II catalog in both H α and H i with the Canada–France–Hawaii Telescope and the Jansky Very Large Array. In these eight systems we have identified four cases where a satellite appears to be currently undergoing ram pressure stripping (RPS) as its H i gas collides with the circumgalactic medium (CGM) of its host. We also see a clear suppression of gas fraction ( M _HI / M _* ) with decreasing (projected) satellite–host separation—to our knowledge, the first time this has been observed in a sample of MW-like systems. Comparisons to the Auriga, A Project Of Simulating The Local Environment, and TNG50 cosmological zoom-in simulations show consistent global behavior, but they systematically underpredict gas fractions across all satellites by roughly 0.5 dex. Using a simplistic RPS model, we estimate the average peak CGM density that satellites in these systems have encountered to be $\mathrm{log}{\rho }_{\mathrm{cgm}}/{\rm{g}}\,{\mathrm{cm}}^{-3}\approx -27.3$ . Furthermore, we see tentative evidence that these satellites are following a specific star formation rate to gas fraction relation that is distinct from field galaxies. Finally, we detect one new gas-rich satellite in the UGC 903 system with an optical size and surface brightness meeting the standard criteria to be considered an ultra-diffuse galaxy.

Published

2024

2. The 'Building Blocks' of Stellar Halos

Author

Kyle A. Oman, Else Starkenburg, and Julio F. Navarro

Subjects

galaxy formation and evolution, stellar halo, numerical simulations, Astronomy, QB1-991

Abstract

The stellar halos of galaxies encode their accretion histories. In particular, the median metallicity of a halo is determined primarily by the mass of the most massive accreted object. We use hydrodynamical cosmological simulations from the apostle project to study the connection between the stellar mass, the metallicity distribution, and the stellar age distribution of a halo and the identity of its most massive progenitor. We find that the stellar populations in an accreted halo typically resemble the old stellar populations in a present-day dwarf galaxy with a stellar mass ∼0.2–0.5 dex greater than that of the stellar halo. This suggests that had they not been accreted, the primary progenitors of stellar halos would have evolved to resemble typical nearby dwarf irregulars.

Published

2017

3. MARTINI: Mock Array Radio Telescope Interferometry of the Neutral ISM.

Author

Kyle A. Oman

Published

2024

4. Off the Baryonic Tully–Fisher Relation: A Population of Baryon-dominated Ultra-diffuse Galaxies.

Author

Pavel E. Mancera Piña, Filippo Fraternali, Elizabeth A. K. Adams, Antonino Marasco, Tom Oosterloo, Kyle A. Oman, Lukas Leisman, Enrico M. di Teodoro, Lorenzo Posti, Michael Battipaglia, John M. Cannon, Lexi Gault, Martha P. Haynes, Steven Janowiecki, Elizabeth McAllan, Hannah J. Pagel, Kameron Reiter, Katherine L. Rhode, John J. Salzer, and Nicholas J. Smith

Published

2019

5. The SAMI Galaxy Survey: Quenching of Star Formation in Clusters I. Transition Galaxies.

Author

Matt S. Owers, Michael J. Hudson, Kyle A. Oman, Joss Bland-Hawthorn, S. Brough, Julia J. Bryant, Luca Cortese, Warrick J. Couch, Scott M. Croom, Jesse van de Sande, Christoph Federrath, Brent Groves, A. M. Hopkins, J. S. Lawrence, Nuria P. F. Lorente, Richard M. McDermid, Anne M. Medling, Samuel N. Richards, Nicholas Scott, and Dan S. Taranu

Subjects

STAR formation, GALAXIES, STAR clusters

Abstract

We use integral-field spectroscopy from the SAMI Galaxy Survey to identify galaxies that show evidence of recent quenching of star formation. The galaxies exhibit strong Balmer absorption in the absence of ongoing star formation in more than 10% of their spectra within the SAMI field of view. These -strong (HDS) galaxies (HDSGs) are rare, making up only ∼2% (25/1220) of galaxies with stellar mass > 10. The HDSGs make up a significant fraction of nonpassive cluster galaxies (15%; 17/115) and a smaller fraction (2.0%; 8/387) of the nonpassive population in low-density environments. The majority (9/17) of cluster HDSGs show evidence of star formation at their centers, with the HDS regions found in the outer parts of the galaxy. Conversely, the HDS signal is more evenly spread across the galaxy for the majority (6/8) of HDSGs in low-density environments and is often associated with emission lines that are not due to star formation. We investigate the location of the HDSGs in the clusters, finding that they are exclusively within 0.6R200 of the cluster center and have a significantly higher velocity dispersion relative to the cluster population. Comparing their distribution in projected phase space to those derived from cosmological simulations indicates that the cluster HDSGs are consistent with an infalling population that has entered the central 0.5r200,3D cluster region within the last ∼1 Gyr. In the eight of nine cluster HDSGs with central star formation, the extent of star formation is consistent with that expected of outside-in quenching by ram pressure stripping. Our results indicate that the cluster HDSGs are currently being quenched by ram pressure stripping on their first passage through the cluster. [ABSTRACT FROM AUTHOR]

Published

2019