13 results on '"Reuter, Cassie"'
Search Results
2. TEMPLATES: Characterization of a Merger in the Dusty Lensing SPT0418-47 System
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Cathey, Jared, Gonzalez, Anthony H., Lower, Sidney, Phadke, Kedar A., Spilker, Justin, Aravena, Manuel, Birkin, Jack E., Birrer, Simon, Chapman, Scott, Dahle, Håkon, Hayward, Cristopher C., Hezaveh, Yashar, Hill, Ryley, Hutchison, Taylor A., Mahler, Guillaume, Marrone, Daniel P., Narayanan, Desika, Navarre, Alexander, Reuter, Cassie, Rigby, Jane R., Sharon, Keren, Solimano, Manuel, Sulzenauer, Nikolaus, Vieira, Joaquin, and Vizgan, David
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Astrophysics of Galaxies (astro-ph.GA) ,FOS: Physical sciences ,Astrophysics - Astrophysics of Galaxies - Abstract
We present JWST and ALMA results for the lensing system SPT0418-47, which includes a strongly-lensed, dusty star-forming galaxy at redshift z=4.225 and an associated multiply-imaged companion. JWST NIRCam and MIRI imaging observations presented in this paper were acquired as part of the Early Release Science program Targeting Extremely Magnified Panchromatic Lensed Arcs and Their Extended Star Formation (TEMPLATES). This data set provides robust, mutiwavelength detection of stellar light in both the main (SPT0418A) and companion (SPT0418B) galaxies, while the ALMA detection of [C II] emission confirms that SPT0418B lies at the same redshift as SPT0418A. From a source plane reconstruction, we infer that the projected physical separation of the two galaxies is $4.42\pm 0.05$ kpc. We derive total magnifications of $\mu=29.5\pm1.2$ and $\mu=4.2\pm 0.9$ for SPT0418A and SPT0418B, respectively. We use both CIGALE and PROSPECTOR to derive stellar masses. The stellar mass ratio of SPT0418A and SPT0418B is approximately 4 to 1 ($4.5\pm 1.0$ for CIGALE and $4.2^{+1.9}_{-1.6}$ for PROSPECTOR). We also see evidence of extended structure associated with SPT0418A in the lensing reconstruction that is suggestive of a tidal feature. Interestingly, the star formation rates and stellar masses of both galaxies are consistent with the main sequence of star-forming galaxies at this epoch, indicating that this ongoing interaction has not noticeably elevated the star formation levels., Comment: Submitted to AAS Journals,14 pages, 7 figures
- Published
- 2023
3. JWST's TEMPLATES for Star Formation: The First Resolved Gas-Phase Metallicity Maps of Dust-Obscured Star-Forming Galaxies at $z$ $\sim$ 4
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Birkin, Jack E., Hutchison, Taylor A., Welch, Brian, Spilker, Justin S., Aravena, Manuel, Bayliss, Matthew B., Cathey, Jared, Chapman, Scott C., Gonzalez, Anthony H., Gururajan, Gayathri, Hayward, Christopher C., Khullar, Gourav, Kim, Keunho J., Mahler, Guillaume, Malkan, Matthew A., Narayanan, Desika, Olivier, Grace M., Phadke, Kedar A., Reuter, Cassie, Rigby, Jane R., Solimano, Manuel, Sulzenauer, Nikolaus, Vieira, Joaquin D., Vizgan, David, and Weiss, Axel
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Astrophysics of Galaxies (astro-ph.GA) ,FOS: Physical sciences ,Astrophysics - Astrophysics of Galaxies - Abstract
We present the first spatially resolved maps of gas-phase metallicity for dust-obscured star-forming galaxies (DSFGs) at $z$ $\sim$ 4, from the JWST TEMPLATES Early Release Science program, derived from NIRSpec integral field unit spectroscopy of the H$\alpha$ and [NII] emission lines. Empirically derived literature optical line calibrations are used to determine that the sources are highly metal rich, with both appearing to display regions of supersolar metallicity, particularly in SPT2147-50. While we cannot rule out shocks or AGN in these regions, we suggest that the two systems have already undergone significant enrichment as a result of their extremely high star-formation rates. Utilising ALMA rest-frame 380$\mu$m continuum and [CI]($^3$P$_2$-$^3$P$_1$) line maps we compare metallicity and gas-to-dust ratio variations in the two galaxies, finding the two to be anticorrelated on highly resolved spatial scales, consistent with various literature studies of $z$ $\sim$ 0 galaxies. The data are indicative of the enormous potential of JWST to probe the enrichment of the interstellar medium on $\sim$kpc scales in extremely dust-obscured systems at $z$ $\sim$ 4 and beyond., Comment: 12 pages, 5 figures, submitted to ApJ
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- 2023
4. Extended Lyman-$\alpha$ emission towards the SPT2349-56 protocluster at $z=4.3$
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Apostolovski, Yordanka, Aravena, Manuel, Anguita, Timo, Bethermin, Matthieu, Burgoyne, James, Chapman, Scott, De Breuck, Carlos, Gonzalez, Anthony, Gronke, Max, Guaita, Lucia, Hezaveh, Yashar, Hill, Ryley, Jarugula, Sreevani, Johnston, Evelyn, Malkan, Matt, Narayanan, Desika, Reuter, Cassie, Solimano, Manuel, Spilker, Justin, Sulzenauer, Nikolaus, Vieira, Joaquin, Vizgan, David, Weiß, Axel, Laboratoire d'Astrophysique de Marseille (LAM), and Aix Marseille Université (AMU)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)
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[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph] ,Astrophysics - Astrophysics of Galaxies ,Astrophysics - Cosmology and Nongalactic Astrophysics - Abstract
Context. Deep spectroscopic surveys with the Atacama Large Millimeter/submillimeter Array (ALMA) have revealed that some of the brightest infrared sources in the sky correspond to concentrations of dusty star-forming galaxies (DSFG) at high redshift. Among these, the SPT2349-56 protocluster system at z = 4.304 is amongst the most extreme examples due to its high source density and integrated star formation rate. Aims. We conducted a deep Lyman-$\alpha$ line emission survey around SPT2349-56 using the Multi-Unit Spectroscopic Explorer (MUSE) at Very Large Telescope (VLT) in order to characterize this uniquely dense environment. Methods. Taking advantage of the deep three-dimensional nature of this survey, we performed a sensitive search for Lyman-$\alpha$ emitters (LAEs) toward the core and northern extension of the protocluster, which correspond to the brightest infrared regions in this field. Using a smoothed narrowband image extracted from the MUSE datacube around the protocluster redshift, we searched for possible extended structures. Results. We identify only three LAEs at z = 4.3 in this field, in concordance with expectations for blank-fields, and an extended Lyman-$\alpha$ structure spatially associated with core of the protocluster. All the previously-identified DSFGs in this field are undetected in Lyman-$\alpha$ emission, consistent with the conspicuous dust obscuration in these systems. We find an extended Lyman-$\alpha$ structure, about $60 \times 60$ kpc$^{2}$ in size, and located 56 kpc west of the protocluster core. Three DSFGs coincide spatially with the location of this structure. We conclude that either the three co-spatial DSFGs or the protocluster core itself are feeding ionizing photons to the Lyman-$\alpha$ structure., Comment: 14 pages, 9 figures, 2 tables, submitted to A&A
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- 2023
5. The ISM in the z = 6.9 Interacting Galaxies of SPT0311-58
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Litke, Katrina C., Marrone, Daniel P., Aravena, Manuel, Archipley, Melanie, Béthermin, Matthieu, Burgoyne, James, Cathey, Jared, Chapman, Scott C., Gonzalez, Anthony H., Greve, Thomas R., Gururajan, Gayathri, Hayward, Christopher C., Malkan, Matthew A., Phadke, Kedar A., Reuter, Cassie A., Rotermund, Kaja M., Spilker, Justin S., Stark, Antony A., Sulzenauer, Nikolaus, Vieira, Joaquin D., Vizgan, David, and Weiß, Axel
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Interstellar medium ,High-redshift galaxies - Abstract
SPT0311-58, a system of two interacting galaxies in the Epoch of Reionization, exists in one of the rarest, most massive dark matter halos theoretically possible in that era. Studying the interstellar medium (ISM) in these galaxies can illuminate the process of galaxy formation in the early Universe. In this work, we explore the multiphase ISM in this system, using ALMA observations of the [C ii] 158, [O i] 146, [N ii] 122, and [O iii] 88 fine-structure lines and dust continuum. We find wide variations in line ratios between the eastern and western galaxies, as well as across the western galaxy.
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- 2023
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6. A census of the stellar content in the protocluster core SPT2349$-$56 at $z\,{=}\,4.3$
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Hill, Ryley, Chapman, Scott, Phadke, Kedar A., Aravena, Manuel, Archipley, Melanie, Bethermin, Matthieu, Canning, Rebecca E.A., Gonzalez, Anthony, Greve, Thomas R., Gururajan, Gayathri, Hayward, Christopher C., Hezaveh, Yashar, Jarugula, Sreevani, Marrone, Daniel P., Miller, Tim, Reuter, Cassie, Rotermund, Kaja, Scott, Douglas, Spilker, Justin, Vieira, Joaquin D., Wang, George, Weiss, Axel, Laboratoire d'Astrophysique de Marseille (LAM), and Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Aix Marseille Université (AMU)-Centre National d'Études Spatiales [Toulouse] (CNES)
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Astrophysics::Solar and Stellar Astrophysics ,Astrophysics::Earth and Planetary Astrophysics ,Astrophysics::Cosmology and Extragalactic Astrophysics ,[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph] ,Astrophysics::Galaxy Astrophysics - Abstract
The protocluster core SPT2349$-$56 at $z\,{=}\,4.3$ is one of the most actively star-forming regions known, yet constraints on the total stellar mass of this system are highly uncertain. We have therefore carried out deep optical and infrared observations of this system, probing rest-frame ultraviolet to infrared wavelengths. Using the positions of the spectroscopically-confirmed protocluster members, we identify counterparts and perform detailed source deblending, allowing us to fit spectral energy distributions in order to estimate stellar masses. We show that the galaxies in SPT2349$-$56 have stellar masses proportional to their high star-formation rates, consistent with other protocluster galaxies and field submillimetre galaxies (SMGs) around redshift 4. The galaxies in SPT2349$-$56 have on average lower molecular gas-to-stellar mass fractions and depletion timescales than field SMGs, although with considerable scatter. We construct the stellar-mass function for SPT2349$-$56 and compare it to the stellar-mass function of $z\,{=}\,1$ galaxy clusters, finding both to be best described by a Schechter function. We measure rest-frame ultraviolet half-light radii from our {\it HST\/}-F160W imaging, finding that on average the galaxies in our sample are similar in size to typical star-forming galaxies around the same redshift. However, the brightest {\it HST\/}-detected galaxy in our sample, found near the luminosity-weighted centre of the protocluster core, remains unresolved at this wavelength. Hydrodynamical simulations predict that the core galaxies will quickly merge into a brightest cluster galaxy, thus our observations provide a direct view of the early formation mechanisms of this class of object.
- Published
- 2021
7. An extended proto-cluster of galaxies surrounding SPT2349$-$56 at $z\,{=}\,4.3$
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Hill, Ryley, Chapman, Scott, Scott, Douglas, Apostolovski, Yordanka, Aravena, Manuel, Béthermin, Matthieu, Bradford, C.M., De Breuck, Carlos, Canning, Rebecca E.A., Dong, Chenxing, Gonzalez, Anthony, Greve, Thomas R., Hayward, Christopher C., Hezaveh, Yashar, Litke, Katrina, Malkan, Matt, Marrone, Daniel P., Phadke, Kedar, Reuter, Cassie, Spilker, Justin, Vieira, Joaquin D., Weiß, Axel, Laboratoire d'Astrophysique de Marseille (LAM), and Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Aix Marseille Université (AMU)-Centre National d'Études Spatiales [Toulouse] (CNES)
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[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph] - Abstract
The $z\,{=}\,4.3$ overdensity SPT2349$-$56 has been proposed as one of the most actively star-forming proto-clusters known, and we have undertaken an extensive ALMA spectroscopic follow-up programme of this system to search for far infrared-luminous proto-cluster members via their [CII] 158$\,\mu$m and CO(4-3) line emission. In addition to robustly detecting the 14 previously published galaxies in this structure, we identify a further 15 associated galaxies at $z\,{=}\,4.3$. These proto-cluster members are distributed into a central core containing 23 galaxies extending out to 300$\,$kpc in diameter, and a northern extension, offset from the core by 400$\,$kpc and containing three galaxies. We discovered three additional galaxies in a red Herschel-SPIRE source 2$\,$Mpc from the main structure, suggesting the existence of many other sources at the same redshift as SPT2349$-$56 that are not yet detected in the limited coverage of our data. An analysis of the velocity distribution within the core indicates that this region may be a nearly virialized structure with a mass of (9$\pm$5)$\,{\times}\,$10$^{12}\,$M$_{\odot}$, while the two offset substructures show significant velocity offsets from the central structure. We calculate the [CII] and far-infrared number counts, and find evidence for a break in the [CII] luminosity function around 4$\,{\times}\,10^9\,$L$_{\odot}$. We estimate the average SFR density within the region of SPT2349$-$56 containing single-dish emission (a proper diametre of 720$\,$kpc), assuming spherical symmetry, to be roughly 40,000$\,$M$_{\odot}\,$yr$^{-1}\,$Mpc$^{-3}$; this is an order of magnitude greater than the most extreme examples seen in simulations.
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- 2020
8. Rapid build-up of the stellar content in the protocluster core SPT2349−56 at z = 4.3.
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Hill, Ryley, Chapman, Scott, Phadke, Kedar A, Aravena, Manuel, Archipley, Melanie, Ashby, Matthew L N, Béthermin, Matthieu, Canning, Rebecca E A, Gonzalez, Anthony, Greve, Thomas R, Gururajan, Gayathri, Hayward, Christopher C, Hezaveh, Yashar, Jarugula, Sreevani, MacIntyre, Duncan, Marrone, Daniel P, Miller, Tim, Rennehan, Douglas, Reuter, Cassie, and Rotermund, Kaja M
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GALAXY clusters ,HIGH mass stars ,SPECTRAL energy distribution ,STELLAR mass ,PROTOSTARS ,STAR formation ,GALACTIC evolution - Abstract
The protocluster SPT2349−56 at |$z = 4.3$| contains one of the most actively star-forming cores known, yet constraints on the total stellar mass of this system are highly uncertain. We have therefore carried out deep optical and infrared observations of this system, probing rest-frame ultraviolet to infrared wavelengths. Using the positions of the spectroscopically confirmed protocluster members, we identify counterparts and perform detailed source deblending, allowing us to fit spectral energy distributions in order to estimate stellar masses. We show that the galaxies in SPT2349−56 have stellar masses proportional to their high star formation rates, consistent with other protocluster galaxies and field submillimetre galaxies (SMGs) around redshift 4. The galaxies in SPT2349−56 have on average lower molecular gas-to-stellar mass fractions and depletion time-scales than field SMGs, although with considerable scatter. We construct the stellar-mass function for SPT2349−56 and compare it to the stellar-mass function of |$z = 1$| galaxy clusters, finding consistent shapes between the two. We measure rest-frame galaxy ultraviolet half-light radii from our HST -F160W imaging, finding that on average the galaxies in our sample are similar in size to typical star-forming galaxies at these redshifts. However, the brightest HST -detected galaxy in our sample, found near the luminosity-weighted centre of the protocluster core, remains unresolved at this wavelength. Hydrodynamical simulations predict that the core galaxies will quickly merge into a brightest cluster galaxy, thus our observations provide a direct view of the early formation mechanisms of this class of object. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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9. Chaotic and Clumpy Galaxy Formation in an Extremely Massive Reionization-era Halo.
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Spilker, Justin S., Hayward, Christopher C., Marrone, Daniel P., Aravena, Manuel, BĂ©thermin, Matthieu, Burgoyne, James, Chapman, Scott C., Greve, Thomas R., Gururajan, Gayathri, Hezaveh, Yashar D., Hill, Ryley, Litke, Katrina C., Lovell, Christopher C., Malkan, Matthew A., Murphy, Eric J., Narayanan, Desika, Phadke, Kedar A., Reuter, Cassie, Stark, Antony A., and Sulzenauer, Nikolaus
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- 2022
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10. Spatially Resolved [C ii] Emission in SPT0346-52: A Hyper-starburst Galaxy Merger at z ~ 5.7
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Litke, Katrina C., Marrone, Daniel P., Spilker, Justin S., Aravena, Manuel, Bethermin, Matthieu, Chapman, Scott, Chen, Chian-Chou, De Breuck, Carlos, Dong, Chenxing, Gonzalez, Anthony, Greve, Thomas R., Hayward, Christopher C., Hezaveh, Yashar, Jarugula, Sreevani, Ma, Jingzhe, Morningstar, Warren, Narayanan, Desika, Phadke, Kedar, Reuter, Cassie, Vieira, Joaquin, Weiss, Axel, Litke, Katrina, Marrone, Daniel, Spilker, Justin, Breuck, Carlos de, Chen, Chenxing, Greve, Thomas, Hayward, Christopher, AUTRES, Institut d'astrophysique spatiale (IAS), Université Paris-Sud - Paris 11 (UP11)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Institut d'Astrophysique de Paris (IAP), Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC), Department of Physics [Montréal], McGill University = Université McGill [Montréal, Canada], and Max-Planck-Institut für Radioastronomie (MPIFR)
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Physics ,010308 nuclear & particles physics ,[SDU.ASTR.CO]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Cosmology and Extra-Galactic Astrophysics [astro-ph.CO] ,Spatially resolved ,Foundation (engineering) ,Astronomy ,FOS: Physical sciences ,Astronomy and Astrophysics ,galaxies: starburst ,Astrophysics::Cosmology and Extragalactic Astrophysics ,Galaxy merger ,Astrophysics - Astrophysics of Galaxies ,01 natural sciences ,Radio astronomy observatory ,high-redshift [Galaxies] ,starburst [Galaxies] ,Space and Planetary Science ,galaxies: high-redshift ,Astrophysics of Galaxies (astro-ph.GA) ,0103 physical sciences ,[SDU.ASTR.GA]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Galactic Astrophysics [astro-ph.GA] ,10. No inequality ,010303 astronomy & astrophysics ,Astrophysics::Galaxy Astrophysics - Abstract
SPT0346-52 is one of the most most luminous and intensely star-forming galaxies in the universe, with L_FIR > 10^13 L_sol and Sigma_SFR ~ 4200 M_sol yr^-1 kpc^-2. In this paper, we present ~0.15'' ALMA observations of the [CII]158micron emission line in this z=5.7 dusty star-forming galaxy. We use a pixellated lensing reconstruction code to spatially and kinematically resolve the source-plane [CII] and rest-frame 158 micron dust continuum structure at ~700 pc (~0.12'') resolution. We discuss the [CII] deficit with a pixellated study of the L_[CII]/L_FIR ratio in the source plane. We find that individual pixels within the galaxy follow the same trend found using unresolved observations of other galaxies, indicating that the deficit arises on scales, Accepted for publication in ApJ
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- 2019
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11. Ubiquitous Molecular Outflows in z > 4 Massive, Dusty Galaxies. II. Momentum-driven Winds Powered by Star Formation in the Early Universe.
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Spilker, Justin S., Aravena, Manuel, Phadke, Kedar A., Béthermin, Matthieu, Chapman, Scott C., Dong, Chenxing, Gonzalez, Anthony H., Hayward, Christopher C., Hezaveh, Yashar D., Litke, Katrina C., Malkan, Matthew A., Marrone, Daniel P., Narayanan, Desika, Reuter, Cassie, Vieira, Joaquin D., and Weiß, Axel
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STAR formation ,STELLAR winds ,EARLY stars ,WIND power ,GALAXIES ,GALACTIC nuclei - Abstract
Galactic outflows of molecular gas are a common occurrence in galaxies and may represent a mechanism by which galaxies self-regulate their growth, redistributing gas that could otherwise have formed stars. We previously presented the first survey of molecular outflows at z > 4 toward a sample of massive, dusty galaxies. Here we characterize the physical properties of the molecular outflows discovered in our survey. Using low-redshift outflows as a training set, we find agreement at the factor of 2 level between several outflow rate estimates. We find molecular outflow rates of 150–800 yr
−1 and infer mass loading factors just below unity. Among the high-redshift sources, the molecular mass loading factor shows no strong correlations with any other measured quantity. The outflow energetics are consistent with expectations for momentum-driven winds with star formation as the driving source, with no need for energy-conserving phases. There is no evidence for active galactic nucleus activity in our sample, and while we cannot rule out deeply buried active galactic nuclei, their presence is not required to explain the outflow energetics, in contrast to nearby obscured galaxies with fast outflows. The fraction of the outflowing gas that will escape into the circumgalactic medium (CGM), though highly uncertain, may be as high as 50%. This nevertheless constitutes only a small fraction of the total cool CGM mass based on a comparison to z ∼ 2–3 quasar absorption line studies, but could represent ≳10% of the CGM metal mass. Our survey offers the first statistical characterization of molecular outflow properties in the very early universe. [ABSTRACT FROM AUTHOR]- Published
- 2020
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12. 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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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., and Weiss, Axel
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MOLECULAR structure ,GALAXIES ,GALAXY formation ,GALACTIC evolution ,STAR formation - 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. 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 μm 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. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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13. A dense, solar metallicity ISM in the z = 4.2 dusty star-forming galaxy SPT 0418−47.
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De Breuck, Carlos, Weiß, Axel, Béthermin, Matthieu, Cunningham, Daniel, Apostolovski, Yordanka, Aravena, Manuel, Archipley, Melanie, Chapman, Scott, Chen, Chian-Chou, Fu, Jianyang, Jarugula, Sreevani, Malkan, Matt, Mangian, Amelia C., Phadke, Kedar A., Reuter, Cassie A., Stacey, Gordon, Strandet, Maria, Vieira, Joaquin, and Vishwas, Amit
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GALAXIES - Abstract
We present a study of six far-infrared fine structure lines in the z = 4.225 lensed dusty star-forming galaxy SPT 0418−47 to probe the physical conditions of its interstellar medium (ISM). In particular, we report Atacama Pathfinder EXperiment (APEX) detections of the [OI] 145 μm and [OIII] 88 μm lines and Atacama Compact Array (ACA) detections of the [NII] 122 and 205 μm lines. The [OI] 145 μm/[CII] 158 μm line ratio is ∼5× higher compared to the average of local galaxies. We interpret this as evidence that the ISM is dominated by photo-dissociation regions with high gas densities. The line ratios, and in particular those of [OIII] 88 μm and [NII] 122 μm imply that the ISM in SPT 0418−47 is already chemically enriched to nearly solar metallicity. While the strong gravitational amplification was required to detect these lines with APEX, larger samples can be observed with the Atacama Large Millimeter/submillimeter Array (ALMA), and should allow observers to determine if the dense, solar metallicity ISM is common among these highly star-forming galaxies. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
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