Ubiquitous Molecular Outflows in z > 4 Massive, Dusty Galaxies. I. Sample Overview and Clumpy Structure in Molecular Outflows on 500 pc Scales

Massive galaxy-scale outflows of gas are one of the most commonly invoked mechanisms to regulate the growth and evolution of galaxies throughout the universe. While the gas in outflows spans a large range of temperatures and densities, the cold molecular phase is of particular interest because molec...

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Veröffentlicht in:	The Astrophysical journal 2020-12, Vol.905 (2), p.85
Hauptverfasser:	Spilker, Justin S., Phadke, Kedar A., Aravena, Manuel, Béthermin, Matthieu, Chapman, Scott C., Dong, Chenxing, Gonzalez, Anthony H., Hayward, Christopher C., Hezaveh, Yashar D., Jarugula, Sreevani, Litke, Katrina C., Malkan, Matthew A., Marrone, Daniel P., Narayanan, Desika, Reuter, Cassie, Vieira, Joaquin D., Weiss, Axel
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption Astrophysics Clumps Galactic evolution Galactic winds Galaxies Galaxy formation Gravitational lensing High-redshift galaxies Molecular structure Optical analysis Optical thickness Outflow Polls & surveys Radio telescopes Spatial resolution Star & galaxy formation Star formation Stars & galaxies Temperature range
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creator	Spilker, Justin S. Phadke, Kedar A. Aravena, Manuel Béthermin, Matthieu Chapman, Scott C. Dong, Chenxing Gonzalez, Anthony H. Hayward, Christopher C. Hezaveh, Yashar D. Jarugula, Sreevani Litke, Katrina C. Malkan, Matthew A. Marrone, Daniel P. Narayanan, Desika Reuter, Cassie Vieira, Joaquin D. Weiss, Axel
description	Massive galaxy-scale outflows of gas are one of the most commonly invoked mechanisms to regulate the growth and evolution of galaxies throughout the universe. While the gas in outflows spans a large range of temperatures and densities, the cold molecular phase is of particular interest because molecular outflows may be capable of suppressing star formation in galaxies by removing the star-forming gas. We have conducted the first survey of molecular outflows at z > 4, targeting 11 strongly lensed dusty, star-forming galaxies (DSFGs) with high-resolution Atacama Large Millimeter/submillimeter Array observations of OH 119 m absorption as an outflow tracer. In this first paper, we give an overview of the survey, focusing on the detection rate and structure of molecular outflows. We find unambiguous evidence for outflows in 8/11 galaxies (73%), more than tripling the number known at z > 4. This implies that molecular winds in z > 4 DSFGs must have both a near-unity occurrence rate and large opening angles to be detectable in absorption. Lensing reconstructions reveal that 500 pc scale clumpy structures in the outflows are common. The individual clumps are not directly resolved, but from optical depth arguments we expect that future observations will require 50-200 pc spatial resolution to resolve them. We do not detect high-velocity [C ii] wings in any of the sources with clear OH outflows, indicating that [C ii] is not a reliable tracer of molecular outflows. Our results represent a first step toward characterizing molecular outflows at z > 4 at the population level, demonstrating that large-scale outflows are ubiquitous among early massive, dusty galaxies.
doi_str_mv	10.3847/1538-4357/abc47f
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While the gas in outflows spans a large range of temperatures and densities, the cold molecular phase is of particular interest because molecular outflows may be capable of suppressing star formation in galaxies by removing the star-forming gas. We have conducted the first survey of molecular outflows at z > 4, targeting 11 strongly lensed dusty, star-forming galaxies (DSFGs) with high-resolution Atacama Large Millimeter/submillimeter Array observations of OH 119 m absorption as an outflow tracer. In this first paper, we give an overview of the survey, focusing on the detection rate and structure of molecular outflows. We find unambiguous evidence for outflows in 8/11 galaxies (73%), more than tripling the number known at z > 4. This implies that molecular winds in z > 4 DSFGs must have both a near-unity occurrence rate and large opening angles to be detectable in absorption. Lensing reconstructions reveal that 500 pc scale clumpy structures in the outflows are common. The individual clumps are not directly resolved, but from optical depth arguments we expect that future observations will require 50-200 pc spatial resolution to resolve them. We do not detect high-velocity [C ii] wings in any of the sources with clear OH outflows, indicating that [C ii] is not a reliable tracer of molecular outflows. 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I. Sample Overview and Clumpy Structure in Molecular Outflows on 500 pc Scales</atitle><jtitle>The Astrophysical journal</jtitle><stitle>APJ</stitle><addtitle>Astrophys. J</addtitle><date>2020-12-01</date><risdate>2020</risdate><volume>905</volume><issue>2</issue><spage>85</spage><pages>85-</pages><issn>0004-637X</issn><eissn>1538-4357</eissn><abstract>Massive galaxy-scale outflows of gas are one of the most commonly invoked mechanisms to regulate the growth and evolution of galaxies throughout the universe. While the gas in outflows spans a large range of temperatures and densities, the cold molecular phase is of particular interest because molecular outflows may be capable of suppressing star formation in galaxies by removing the star-forming gas. 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We do not detect high-velocity [C ii] wings in any of the sources with clear OH outflows, indicating that [C ii] is not a reliable tracer of molecular outflows. 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subjects	Absorption Astrophysics Clumps Galactic evolution Galactic winds Galaxies Galaxy formation Gravitational lensing High-redshift galaxies Molecular structure Optical analysis Optical thickness Outflow Polls & surveys Radio telescopes Spatial resolution Star & galaxy formation Star formation Stars & galaxies Temperature range
title	Ubiquitous Molecular Outflows in z > 4 Massive, Dusty Galaxies. I. Sample Overview and Clumpy Structure in Molecular Outflows on 500 pc Scales
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