Kinematics, Structure, and Mass Outflow Rates of Extreme Starburst Galactic Outflows

We present results on the properties of extreme gas outflows in massive (\(\rm M_* \sim\)10\(^{11} \ \rm M_{\odot}\)), compact, starburst ($\rm SFR \sim$$200 \, \rm M_{\odot} \ yr^{-1}\() galaxies at z = \)0.4-0.7\( with very high star formation surface densities (\)\rm \Sigma_{SFR} \sim$$2000 \,\rm...

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Published inarXiv.org
Main Authors Perrotta, Serena, Coil, Alison L, Rupke, David S N, Tremonti, Christy A, Davis, Julie D, Diamond-Stanic, Aleksandar M, Geach, James E, Hickox, Ryan C, Moustakas, John, Rudnick, Gregory H, Sell, Paul H, Swiggum, Cameren N, Whalen, Kelly E
Format Paper Journal Article
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 13.03.2023
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Summary:We present results on the properties of extreme gas outflows in massive (\(\rm M_* \sim\)10\(^{11} \ \rm M_{\odot}\)), compact, starburst ($\rm SFR \sim$$200 \, \rm M_{\odot} \ yr^{-1}\() galaxies at z = \)0.4-0.7\( with very high star formation surface densities (\)\rm \Sigma_{SFR} \sim$$2000 \,\rm M_{\odot} \ yr^{-1} \ kpc^{-2}\(). Using optical Keck/HIRES spectroscopy of 14 HizEA starburst galaxies we identify outflows with maximum velocities of \)820 - 2860\( \kmps. High-resolution spectroscopy allows us to measure precise column densities and covering fractions as a function of outflow velocity and characterize the kinematics and structure of the cool gas outflow phase (T \)\sim\(10\)^4\( K). We find substantial variation in the absorption profiles, which likely reflects the complex morphology of inhomogeneously-distributed, clumpy gas and the intricacy of the turbulent mixing layers between the cold and hot outflow phases. There is not a straightforward correlation between the bursts in the galaxies' star formation histories and their wind absorption line profiles, as might naively be expected for starburst-driven winds. The lack of strong \mgii \ absorption at the systemic velocity is likely an orientation effect, where the observations are down the axis of a blowout. We infer high mass outflow rates of \)\rm \sim\(50 \)-\( 2200 \)\rm M_{\odot} \, yr^{-1}\(, assuming a fiducial outflow size of 5 kpc, and mass loading factors of \)\eta\sim\(5 for most of the sample. %with \)\eta\sim$20 for two galaxies. While these values have high uncertainties, they suggest that starburst galaxies are capable of ejecting very large amounts of cool gas that will substantially impact their future evolution.
ISSN:2331-8422
DOI:10.48550/arxiv.2303.07448