Your search keyword '"Litke, K. C."' showing total 16 results

1. High resolution spectral imaging of CO(7-6), [CI](2-1) and continuum of three high-z lensed dusty star-forming galaxies using ALMA

Author

Gururajan, G., Béthermin, M., Theulé, P., Spilker, J. S., Aravena, M., Archipley, M. A., Chapman, S. C., DeBreuck, C., Gonzalez, A., Hayward, C. C., Hezaveh, Y., Hill, R., Jarugula, S., Litke, K. C., Malkan, M., Marrone, D., Narayanan, D., Phadke, K. A., Reuter, C., Vieira, J., Vizgan, D., and Weiß, A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

High-redshift dusty star-forming galaxies with very high star formation rates (500 -- 3000 M$_{\odot}$ yr$^{-1}$) are key to understanding the formation of the most extreme galaxies in the early Universe. Characterising the gas reservoir of these systems can reveal the driving factor behind the high star formation. Using molecular gas tracers like high-J CO lines, neutral carbon lines and the dust continuum, we can estimate the gas density and radiation field intensity in their interstellar media. In this paper, we present high resolution ($\sim$0.4$^{\prime\prime}$) observations of CO(7-6), [CI](2-1) and dust continuum of 3 lensed galaxies from the SPT-SMG sample at $z\sim$ 3 with the Atacama Large Millimeter/submillimeter Array. Our sources have high intrinsic star-formation rates ($>$850 M$_{\odot}$yr$^{-1}$) and rather short depletion timescales ($<$100 Myr). Based on the L$_{[\rm CI](2-1)}$/L$_{\rm CO(7-6)}$ and L$_{[\rm CI](2-1)}$/L$_{\rm IR}$ ratios, our galaxy sample has similar radiation field intensities and gas densities compared to other submillimetre galaxies. We perform visibility-based lens modelling on these objects to reconstruct the kinematics in the source plane. We find that the cold gas masses of the sources are compatible with simple dynamical mass estimates using ULIRG-like values of the CO-H$_2$ conversion factor $\alpha_{\rm CO}$ but not Milky Way-like values. We find diverse source kinematics in our sample: SPT0103-45 and SPT2147-50 are likely rotating disks while SPT2357-51 is possibly a major merger. The analysis presented in the paper could be extended to a larger sample to determine better statistics of morphologies and interstellar medium properties of high-$z$ dusty star-forming galaxies., Comment: 29 pages, 26 figures, Accepted for publication in A&A. Figure 16 and the related conclusions have been revised

Published

2021

2. The [CII]/[NII] ratio in 3 < z < 6 sub-millimetre galaxies from the South Pole Telescope survey

Author

Cunningham, D. J. M., Chapman, S. C., Aravena, M., De Breuck, C., Béthermin, M., Chen, Chian-Chou, Dong, Chenxing, Gonzalez, A. H., Greve, T. R., Litke, K. C., Ma, J., Malkan, M., Marrone, D. P., Miller, T., Phadke, K. A., Reuter, C., Rotermund, K., Spilker, J. S., Stark, A. A., Strandet, M., Vieira, J. D., and Weiß, A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present Atacama Compact Array and Atacama Pathfinder Experiment observations of the [N II] 205 $\mu$m fine-structure line in 40 sub-millimetre galaxies lying at redshifts z = 3 to 6, drawn from the 2500 deg$^2$ South Pole Telescope survey. This represents the largest uniformly selected sample of high-redshift [N II] 205 $\mu$m measurements to date. 29 sources also have [C II] 158 $\mu$m line observations allowing a characterization of the distribution of the [C II] to [N II] luminosity ratio for the first time at high-redshift. The sample exhibits a median L$_{[C II]}$ /L$_{[N II]}$ $\approx$ 11 and interquartile range of 5.0 to 24.7. These ratios are similar to those observed in local (U)LIRGs, possibly indicating similarities in their interstellar medium. At the extremes, we find individual sub-millimetre galaxies with L$_{[C II]}$ /L$_{[N II]}$ low enough to suggest a smaller contribution from neutral gas than ionized gas to the [C II] flux and high enough to suggest strongly photon or X-ray region dominated flux. These results highlight a large range in this line luminosity ratio for sub-millimetre galaxies, which may be caused by variations in gas density, the relative abundances of carbon and nitrogen, ionization parameter, metallicity, and a variation in the fractional abundance of ionized and neutral interstellar medium., Comment: 8 pages, 4 figures, accepted to MNRAS

Published

2019

3. Fast Molecular Outflow from a Dusty Star-Forming Galaxy in the Early Universe

Author

Spilker, J. S., Aravena, M., Bethermin, M., Chapman, S. C., Chen, C. -C., Cunningham, D. J. M., De Breuck, C., Dong, C., Gonzalez, A. H., Hayward, C. C., Hezaveh, Y. D., Litke, K. C., Ma, J., Malkan, M., Marrone, D. P., Miller, T. B., Morningstar, W. R., Narayanan, D., Phadke, K. A., Sreevani, J., Stark, A. A., Vieira, J. D., and Weiss, A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Galaxies grow inefficiently, with only a few percent of the available gas converted into stars each free-fall time. Feedback processes, such as outflowing winds driven by radiation pressure, supernovae or supermassive black hole accretion, can act to halt star formation if they heat or expel the gas supply. We report a molecular outflow launched from a dust-rich star-forming galaxy at redshift 5.3, one billion years after the Big Bang. The outflow reaches velocities up to 800 km/s relative to the galaxy, is resolved into multiple clumps, and carries mass at a rate within a factor of two of the star formation rate. Our results show that molecular outflows can remove a large fraction of the gas available for star formation from galaxies at high redshift., Comment: Author's version of paper to appear in Science on 7 September 2018

Published

2018

4. A massive core for a cluster of galaxies at a redshift of 4.3

Author

Miller, T. B., Chapman, S. C., Aravena, M., Ashby, M. L. N., Hayward, C. C., Vieira, J. D., Weiß, A., Babul, A., Béthermin, M., Bradford, C. M., Brodwin, M., Carlstrom, J. E., Chen, Chian-Chou, Cunningham, D. J. M., De Breuck, C., Gonzalez, A. H., Greve, T. R., Harnett, J., Hezaveh, Y., Lacaille, K., Litke, K. C., Ma, J., Malkan, M., Marrone, D. P., Morningstar, W., Murphy, E. J., Narayanan, D., Pass, E., Perry, R., Phadke, K. A., Rennehan, D., Rotermund, K. M., Simpson, J., Spilker, J. S., Sreevani, J., Stark, A. A., Strandet, M. L., and Strom, A. L.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Massive galaxy clusters are now found as early as 3 billion years after the Big Bang, containing stars that formed at even earlier epochs. The high-redshift progenitors of these galaxy clusters, termed 'protoclusters', are identified in cosmological simulations with the highest dark matter overdensities. While their observational signatures are less well defined compared to virialized clusters with a substantial hot intra-cluster medium (ICM), protoclusters are expected to contain extremely massive galaxies that can be observed as luminous starbursts. Recent claimed detections of protoclusters hosting such starbursts do not support the kind of rapid cluster core formation expected in simulations because these structures contain only a handful of starbursting galaxies spread throughout a broad structure, with poor evidence for eventual collapse into a protocluster. Here we report that the source SPT2349-56 consists of at least 14 gas-rich galaxies all lying at z = 4.31 based on sensitive observations of carbon monoxide and ionized carbon. We demonstrate that each of these galaxies is forming stars between 50 and 1000 times faster than our own Milky Way, and all are located within a projected region only $\sim$ 130 kiloparsecs in diameter. This galaxy surface density is more than 10 times the average blank field value (integrated over all redshifts) and $>$1000 times the average field volume density. The velocity dispersion ($\sim$ 410 km s$^{-1}$) of these galaxies and enormous gas and star formation densities suggest that this system represents a galaxy cluster core at an advanced stage of formation when the Universe was only 1.4 billion years old. A comparison with other known protoclusters at high redshifts shows that SPT2349-56 is a uniquely massive and dense system that could be building one of the most massive structures in the Universe today., Comment: To appear in April 26 issue of Nature

Published

2018

5. Galaxy growth in a massive halo in the first billion years of cosmic history

Author

Marrone, D. P., Spilker, J. S., Hayward, C. C., Vieira, J. D., Aravena, M., Ashby, M. L. N., Bayliss, M. B., Bethermin, M., Brodwin, M., Bothwell, M. S., Carlstrom, J. E., Chapman, S. C., Chen, Chian-Chou, Crawford, T. M., Cunningham, D. J. M., De Breuck, C., Fassnacht, C. D., Gonzalez, A. H., Greve, T. R., Hezaveh, Y. D., Lacaille, K., Litke, K. C., Lower, S., Ma, J., Malkan, M., Miller, T. B., Morningstar, W. R., Murphy, E. J., Narayanan, D., Phadke, K. A., Rotermund, K. M., Sreevani, J., Stalder, B., Stark, A. A., Strandet, M. L., Tang, M., and Weiss, A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

According to the current understanding of cosmic structure formation, the precursors of the most massive structures in the Universe began to form shortly after the Big Bang, in regions corresponding to the largest fluctuations in the cosmic density field. Observing these structures during their period of active growth and assembly - the first few hundred million years of the Universe - is challenging because it requires surveys that are sensitive enough to detect the distant galaxies that act as signposts for these structures and wide enough to capture the rarest objects. As a result, very few such objects have been detected so far. Here we report observations of a far-infrared-luminous object at redshift 6.900 (less than 800 Myr after the Big Bang) that was discovered in a wide-field survey. High-resolution imaging reveals this source to be a pair of extremely massive star-forming galaxies. The larger of these galaxies is forming stars at a rate of 2900 solar masses per year, contains 270 billion solar masses of gas and 2.5 billion solar masses of dust, and is more massive than any other known object at a redshift of more than 6. Its rapid star formation is probably triggered by its companion galaxy at a projected separation of just 8 kiloparsecs. This merging companion hosts 35 billion solar masses of stars and has a star-formation rate of 540 solar masses per year, but has an order of magnitude less gas and dust than its neighbor and physical conditions akin to those observed in lower-metallicity galaxies in the nearby Universe. These objects suggest the presence of a dark-matter halo with a mass of more than 400 billion solar masses, making it among the rarest dark-matter haloes that should exist in the Universe at this epoch., Comment: Nature, published online on 06 December 2017

Published

2017

6. Galaxy growth in a massive halo in the first billion years of cosmic history

Author

Marrone, D. P., Spilker, J. S., Hayward, C. C., Vieira, J. D., Aravena, M., Ashby, M. L. N., Bayliss, M. B., Bthermin, M., Brodwin, M., Bothwell, M. S., Carlstrom, J. E., Chapman, S. C., Chen, Chian-Chou, Crawford, T. M., Cunningham, D. J. M., De Breuck, C., Fassnacht, C. D., Gonzalez, A. H., Greve, T. R., Hezaveh, Y. D., Lacaille, K., Litke, K. C., Lower, S., Ma, J., Malkan, M., Miller, T. B., Morningstar, W. R., Murphy, E. J., Narayanan, D., Phadke, K. A., Rotermund, K. M., Sreevani, J., Stalder, B., Stark, A. A., Strandet, M. L., Tang, M., and Wei, A.

Subjects

Galaxies -- Natural history -- Observations, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): D. P. Marrone (corresponding author) [1]; J. S. Spilker [1]; C. C. Hayward [2, 3]; J. D. Vieira [4]; M. Aravena [5]; M. L. N. Ashby [3]; M. B. [...]

Published

2018

7. High resolution spectral imaging of CO(7–6), [CI](2–1), and continuum of three high-z lensed dusty star-forming galaxies using ALMA

Author

Gururajan, G., primary, Béthermin, M., additional, Theulé, P., additional, Spilker, J. S., additional, Aravena, M., additional, Archipley, M. A., additional, Chapman, S. C., additional, De Breuck, C., additional, Gonzalez, A., additional, Hayward, C. C., additional, Hezaveh, Y., additional, Hill, R., additional, Jarugula, S., additional, Litke, K. C., additional, Malkan, M., additional, Marrone, D. P., additional, Narayanan, D., additional, Phadke, K. A., additional, Reuter, C., additional, Vieira, J. D., additional, Vizgan, D., additional, and Weiß, A., additional

Published

2022

8. High resolution spectral imaging of CO(7-6), [CI](2-1), and continuum of three high-z lensed dusty star-forming galaxies using ALMA

Author

Gururajan, G., Bethermin, M., Theule, P., Spilker, J. S., Aravena, M., Archipley, M. A., Chapman, S. C., De Breuck, C., Gonzalez, A., Hayward, C. C., Hezaveh, Y., Hill, R., Jarugula, S., Litke, K. C., Malkan, M., Marrone, D. P., Narayanan, D., Phadke, K. A., Reuter, C., Vieira, J. D., Vizgan, D., Weiss, A., Gururajan, G., Bethermin, M., Theule, P., Spilker, J. S., Aravena, M., Archipley, M. A., Chapman, S. C., De Breuck, C., Gonzalez, A., Hayward, C. C., Hezaveh, Y., Hill, R., Jarugula, S., Litke, K. C., Malkan, M., Marrone, D. P., Narayanan, D., Phadke, K. A., Reuter, C., Vieira, J. D., Vizgan, D., and Weiss, A.

Abstract

High-redshift dusty star-forming galaxies with very high star formation rates (500-3000 M-circle dot yr(-1)) are key to understanding the formation of the most extreme galaxies in the early Universe. Characterising the gas reservoir of these systems can reveal the driving factor behind the high star formation. Using molecular gas tracers such as, high-J CO lines, neutral carbon lines, and the dust continuum, we can estimate the gas density and radiation field intensity in their interstellar media. In this paper, we present high resolution (similar to 0.4 '') observations of CO(7-6), [CI](2-1), and dust continuum of three lensed galaxies from the South pole telescope - sub-millimetre galaxies (SPT-SMG) sample at z & x2004;similar to & x2004;3 with the Atacama Large Millimetre/submillimetre Array. Our sources have high intrinsic star formation rates (> 850 M-circle dot yr(-1)) and rather short depletion timescales (< 100 Myr). Based on the L[CI](2-1)/LCO(7 - 6) and L[CI](2-1)/L-IR ratios, our galaxy sample has similar radiation field intensities and gas densities compared to other submillimetre galaxies. We performed visibility-based lens modelling on these objects to reconstruct the kinematics in the source plane. We find that the cold gas masses of the sources are compatible with simple dynamical mass estimates using ULIRG-like values of the CO-H-2 conversion factor alpha(CO), but not Milky Way-like values. We find diverse source kinematics in our sample: SPT0103-45 and SPT2147-50 are likely rotating disks, while SPT2357-51 is possibly a major merger. The analysis presented in the paper could be extended to a larger sample to determine better statistics of morphologies and interstellar medium properties of high-z dusty star-forming galaxies.

Published

2022

9. Author Correction: A massive core for a cluster of galaxies at a redshift of 4.3

Author

Miller, T. B., Chapman, S. C., Aravena, M., Ashby, M. L. N., Hayward, C. C., Vieira, J. D., Weiß, A., Babul, A., Béthermin, M., Bradford, C. M., Brodwin, M., Carlstrom, J. E., Chen, Chian-Chou, Cunningham, D. J. M., De Breuck, C., Gonzalez, A. H., Greve, T. R., Harnett, J., Hezaveh, Y., Lacaille, K., Litke, K. C., Ma, J., Malkan, M., Marrone, D. P., Morningstar, W., Murphy, E. J., Narayanan, D., Pass, E., Perry, R., Phadke, K. A., Rennehan, D., Rotermund, K. M., Simpson, J., Spilker, J. S., Sreevani, J., Stark, A. A., Strandet, M. L., and Strom, A. L.

Published

2018

10. The [C ii] / [N ii] ratio in 3 < z < 6 sub-millimetre galaxies from the South Pole Telescope survey

Author

Cunningham, D. J. M., Chapman, S. C., Aravena, M., De Breuck, C., Béthermin, M., Chen, Chian-Chou, Dong, Chenxing, Gonzalez, A. H., Greve, T. R., Litke, K. C., Ma, J., Malkan, M., Marrone, D. P., Miller, T. D., Phadke, K. A., Reuter, C., Rotermund, K., Spilker, J. S., Stark, A. A., Jensen, M., Vieira, J. D., Weiß, A, Cunningham, D. J. M., Chapman, S. C., Aravena, M., De Breuck, C., Béthermin, M., Chen, Chian-Chou, Dong, Chenxing, Gonzalez, A. H., Greve, T. R., Litke, K. C., Ma, J., Malkan, M., Marrone, D. P., Miller, T. D., Phadke, K. A., Reuter, C., Rotermund, K., Spilker, J. S., Stark, A. A., Jensen, M., Vieira, J. D., and Weiß, A

Abstract

We present Atacama Compact Array and Atacama Pathfinder Experiment observations of the [N ii] 205 μm fine-structure line in 40 sub-millimetre galaxies lying at redshifts z = 3 to 6, drawn from the 2500 deg2 South Pole Telescope survey. This represents the largest uniformly selected sample of high-redshift [N ii] 205 μm measurements to date. 29 sources also have [C ii] 158 μm line observations allowing a characterization of the distribution of the [C ii] to [N ii] luminosity ratio for the first time at high-redshift. The sample exhibits a median L [C II] /L [N II] ≈ 11.0 and interquartile range of 5.0 to 24.7. These ratios are similar to those observed in local (U)LIRGs, possibly indicating similarities in their interstellar medium. At the extremes, we find individual sub-millimetre galaxies with L [C II] /L [N II] low enough to suggest a smaller contribution from neutral gas than ionized gas to the [C ii] flux and high enough to suggest strongly photon or X-ray region dominated flux. These results highlight a large range in this line luminosity ratio for sub-millimetre galaxies, which may be caused by variations in gas density, the relative abundances of carbon and nitrogen, ionization parameter, metallicity, and a variation in the fractional abundance of ionized and neutral interstellar medium.

Published

2020

11. The [C II]/[N II] ratio in 3 < z < 6 sub-millimetre galaxies from the South Pole Telescope survey

Author

Cunningham, D. J. M., Chapman, S. C., Aravena, M., De Breuck, C., Bethermin, M., Chen, Chian-Chou, Dong, Chenxing, Gonzalez, A. H., Greve, T. R., Litke, K. C., Ma, J., Malkan, M., Marrone, D. P., Miller, T., Phadke, K. A., Reuter, C., Rotermund, K., Spilker, J. S., Stark, A. A., Strandet, M., Vieira, J. D., Weiss, A., Cunningham, D. J. M., Chapman, S. C., Aravena, M., De Breuck, C., Bethermin, M., Chen, Chian-Chou, Dong, Chenxing, Gonzalez, A. H., Greve, T. R., Litke, K. C., Ma, J., Malkan, M., Marrone, D. P., Miller, T., Phadke, K. A., Reuter, C., Rotermund, K., Spilker, J. S., Stark, A. A., Strandet, M., Vieira, J. D., and Weiss, A.

Abstract

We present Atacama Compact Array and Atacama Pathfinder Experiment observations of the [N II] 205 mu m fine-structure line in 40 sub-millimetre galaxies lying at redshifts z = 3-6, drawn from the 2500 deg(2) South Pole Thlescope survey. This represents the largest uniformly selected sample of high-redshift [N II] 205 mu m measurements to date. 29 sources also have [C II] 158 mu m line observations allowing a characterization of the distribution of the [C II] to [N II] luminosity ratio for the first time at high redshift. The sample exhibits a median L[C II] /L [N II]) approximate to 11.0 and interquartile range of 5.0 -24.7. These ratios are similar to those observed in local (Ultra)luminous infrared galaxies (LIRGs), possibly indicating similarities in their interstellar medium. At the extremes, we find individual sub-millimetre galaxies with L[C II]/L [N II] low enough to suggest a smaller contribution from neutral gas than ionized gas to the [C II] flux and high enough to suggest strongly photon or X-ray region dominated flux. These results highlight a large range in this line luminosity ratio for sub-millimetre galaxies, which may be caused by variations in gas density, the relative abundances of carbon and nitrogen, ionization parameter, metallicity, and a variation in the fractional abundance of ionized and neutral interstellar medium.

Published

2020

12. The [C ii]/[N ii] ratio in 3 &lt; z &lt; 6 sub-millimetre galaxies from the South Pole Telescope survey

Author

Cunningham, D J M, primary, Chapman, S C, additional, Aravena, M, additional, De Breuck, C, additional, Béthermin, M, additional, Chen, Chian-Chou, additional, Dong, Chenxing, additional, Gonzalez, A H, additional, Greve, T R, additional, Litke, K C, additional, Ma, J, additional, Malkan, M, additional, Marrone, D P, additional, Miller, T, additional, Phadke, K A, additional, Reuter, C, additional, Rotermund, K, additional, Spilker, J S, additional, Stark, A A, additional, Strandet, M, additional, Vieira, J D, additional, and Weiß, A, additional

Published

2020

13. The [C ii]/[N ii] ratio in 3 < z < 6 sub-millimetre galaxies from the South Pole Telescope survey.

Author

Cunningham, D J M, Chapman, S C, Aravena, M, De Breuck, C, Béthermin, M, Chen, Chian-Chou, Dong, Chenxing, Gonzalez, A H, Greve, T R, Litke, K C, Ma, J, Malkan, M, Marrone, D P, Miller, T, Phadke, K A, Reuter, C, Rotermund, K, Spilker, J S, Stark, A A, and Strandet, M

Subjects

GALAXIES, IONIZED gases, TELESCOPES, INTERSTELLAR medium, ASTROCHEMISTRY

Abstract

We present Atacama Compact Array and Atacama Pathfinder Experiment observations of the [N  ii ] 205 μm fine-structure line in 40 sub-millimetre galaxies lying at redshifts z  = 3–6, drawn from the 2500 deg2 South Pole Telescope survey. This represents the largest uniformly selected sample of high-redshift [N  ii ] 205 μm measurements to date. 29 sources also have [C  ii ] 158 μm line observations allowing a characterization of the distribution of the [C  ii ] to [N  ii ] luminosity ratio for the first time at high redshift. The sample exhibits a median L |$_{{\rm{[C\,{\small II}]}}}$| / L |$_{{\rm{[N\,{\small II}]}}}$| ≈ 11.0 and interquartile range of 5.0 –24.7. These ratios are similar to those observed in local (Ultra)luminous infrared galaxies (LIRGs), possibly indicating similarities in their interstellar medium. At the extremes, we find individual sub-millimetre galaxies with L |$_{{\rm{[C\,{\small II}]}}}$| / L |$_{{\rm{[N\,{\small II}]}}}$| low enough to suggest a smaller contribution from neutral gas than ionized gas to the [C  ii ] flux and high enough to suggest strongly photon or X-ray region dominated flux. These results highlight a large range in this line luminosity ratio for sub-millimetre galaxies, which may be caused by variations in gas density, the relative abundances of carbon and nitrogen, ionization parameter, metallicity, and a variation in the fractional abundance of ionized and neutral interstellar medium. [ABSTRACT FROM AUTHOR]

Published

2020

14. Fast molecular outflow from a dusty star-forming galaxy in the early Universe

Author

Spilker, J. S., primary, Aravena, M., additional, Béthermin, M., additional, Chapman, S. C., additional, Chen, C.-C., additional, Cunningham, D. J. M., additional, De Breuck, C., additional, Dong, C., additional, Gonzalez, A. H., additional, Hayward, C. C., additional, Hezaveh, Y. D., additional, Litke, K. C., additional, Ma, J., additional, Malkan, M., additional, Marrone, D. P., additional, Miller, T. B., additional, Morningstar, W. R., additional, Narayanan, D., additional, Phadke, K. A., additional, Sreevani, J., additional, Stark, A. A., additional, Vieira, J. D., additional, and Weiß, A., additional

Published

2018

15. A massive core for a cluster of galaxies at a redshift of 4.3

Author

Miller, T. B., primary, Chapman, S. C., additional, Aravena, M., additional, Ashby, M. L. N., additional, Hayward, C. C., additional, Vieira, J. D., additional, Weiß, A., additional, Babul, A., additional, Béthermin, M., additional, Bradford, C. M., additional, Brodwin, M., additional, Carlstrom, J. E., additional, Chen, Chian-Chou, additional, Cunningham, D. J. M., additional, De Breuck, C., additional, Gonzalez, A. H., additional, Greve, T. R., additional, Harnett, J., additional, Hezaveh, Y., additional, Lacaille, K., additional, Litke, K. C., additional, Ma, J., additional, Malkan, M., additional, Marrone, D. P., additional, Morningstar, W., additional, Murphy, E. J., additional, Narayanan, D., additional, Pass, E., additional, Perry, R., additional, Phadke, K. A., additional, Rennehan, D., additional, Rotermund, K. M., additional, Simpson, J., additional, Spilker, J. S., additional, Sreevani, J., additional, Stark, A. A., additional, Strandet, M. L., additional, and Strom, A. L., additional

Published

2018

16. Galaxy growth in a massive halo in the first billion years of cosmic history

Author

Marrone, D. P., primary, Spilker, J. S., additional, Hayward, C. C., additional, Vieira, J. D., additional, Aravena, M., additional, Ashby, M. L. N., additional, Bayliss, M. B., additional, Béthermin, M., additional, Brodwin, M., additional, Bothwell, M. S., additional, Carlstrom, J. E., additional, Chapman, S. C., additional, Chen, Chian-Chou, additional, Crawford, T. M., additional, Cunningham, D. J. M., additional, De Breuck, C., additional, Fassnacht, C. D., additional, Gonzalez, A. H., additional, Greve, T. R., additional, Hezaveh, Y. D., additional, Lacaille, K., additional, Litke, K. C., additional, Lower, S., additional, Ma, J., additional, Malkan, M., additional, Miller, T. B., additional, Morningstar, W. R., additional, Murphy, E. J., additional, Narayanan, D., additional, Phadke, K. A., additional, Rotermund, K. M., additional, Sreevani, J., additional, Stalder, B., additional, Stark, A. A., additional, Strandet, M. L., additional, Tang, M., additional, and Weiß, A., additional

Published

2017