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3. The CatWISE Preliminary Catalog: Motions from WISE and NEOWISE Data.

Author

Peter R. M. Eisenhardt, Federico Marocco, John W. Fowler, Aaron M. Meisner, J. Davy Kirkpatrick, Nelson Garcia, Thomas H. Jarrett, Renata Koontz, Elijah J. Marchese, S. Adam Stanford, Dan Caselden, Michael C. Cushing, Roc M. Cutri, Jacqueline K. Faherty, Christopher R. Gelino, Anthony H. Gonzalez, Amanda Mainzer, Bahram Mobasher, David J. Schlegel, and Daniel Stern

Published
2020
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4. The Complete Calibration of the Color–Redshift Relation (C3R2) Survey: Analysis and Data Release 2.

Author

Daniel C. Masters, Daniel K. Stern, Judith G. Cohen, Peter L. Capak, S. Adam Stanford, Nina Hernitschek, Audrey Galametz, Iary Davidzon, Jason D. Rhodes, Dave Sanders, Bahram Mobasher, Francisco Castander, Kerianne Pruett, and Sotiria Fotopoulou

Subjects
DATA analysis, GALACTIC magnitudes, DARK energy, CALIBRATION, SURVEYING (Engineering)
Abstract

The Complete Calibration of the Color-Redshift Relation (C3R2) survey is a multi-institution, multi-instrument survey that aims to map the empirical relation of galaxy color to redshift to i ∼ 24.5 (AB), thereby providing a firm foundation for weak lensing cosmology with the Stage IV dark energy missions Euclid and WFIRST. Here we present 3171 new spectroscopic redshifts obtained in the 2016B and 2017A semesters with a combination of DEIMOS, LRIS, and MOSFIRE on the Keck telescopes.13 The observations come from all of the Keck partners: Caltech, NASA, the University of Hawaii, and the University of California. Combined with the 1283 redshifts published in DR1, the C3R2 survey has now obtained and published 4454 high-quality galaxy redshifts. We discuss updates to the survey design and provide a catalog of photometric and spectroscopic data. Initial tests of the calibration method performance are given, indicating that the sample, once completed and combined with extensive data collected by other spectroscopic surveys, should allow us to meet the cosmology requirements for Euclid, and make significant headway toward solving the problem for WFIRST. We use the full spectroscopic sample to demonstrate that galaxy brightness is weakly correlated with redshift once a galaxy is localized in the Euclid or WFIRST color space, with potentially important implications for the spectroscopy needed to calibrate redshifts for faint WFIRST and LSST sources. [ABSTRACT FROM AUTHOR]

Published
2019
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5. HST GRISM CONFIRMATION OF TWO z ∼ 2 STRUCTURES FROM THE CLUSTERS AROUND RADIO-LOUD AGN (CARLA) SURVEY.

Author

Gaël Noirot, Joël Vernet, Carlos De Breuck, Dominika Wylezalek, Audrey Galametz, Daniel Stern, Simona Mei, Mark Brodwin, Elizabeth A. Cooke, Anthony H. Gonzalez, Nina A. Hatch, Alessandro Rettura, and Spencer Adam Stanford

Subjects
REDSHIFT, ACTIVE galactic nuclei, STAR clusters, STAR formation, RADIO galaxies
Abstract

Using Hubble Space Telescope slitless grism data, we report the spectroscopic confirmation of two distant structures at associated with powerful high-redshift radio-loud active galactic nuclei (AGNs). These rich structures, likely (forming) clusters, are among the most distant structures currently known, and were identified on the basis of Spitzer/IRAC [3.6]–[4.5] color. We spectroscopically confirm nine members in the field of MRC 2036−254, comprising eight star-forming galaxies and the targeted radio galaxy. The median redshift is z = 2.000. We spectroscopically confirm 10 members in the field of B3 0756+406, comprising 8 star-forming galaxies and 2 AGNs, including the targeted radio-loud quasar. The median redshift is z = 1.986. All confirmed members are within 500 kpc (1 arcmin) of the targeted AGNs. We derive median (mean) star-formation rates of () for the confirmed star-forming members of both structures based on their [O iii] luminosities, and estimate average galaxy stellar masses based on mid-infrared fluxes and spectral energy distribution modeling. Most of our confirmed members are located above the star-forming main sequence toward starburst galaxies, consistent with clusters at these early epochs being the sites of significant levels of star formation. The structure around MRC 2036−254 shows an overdensity of IRAC-selected candidate galaxy cluster members consistent with being quiescent galaxies, while the structure around B3 0756+406 shows field values, albeit with many lower limits to colors that could allow an overdensity of faint red quiescent galaxies. The structure around MRC 2036−254 shows a red sequence of passive galaxy candidates. [ABSTRACT FROM AUTHOR]

Published
2016
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6. STAR FORMATION AND AGN ACTIVITY IN GALAXY CLUSTERS FROM z = 1–2: A MULTI-WAVELENGTH ANALYSIS FEATURING HERSCHEL/PACS.

Author

Stacey Alberts, Alexandra Pope, Mark Brodwin, Sun Mi Chung, Ryan Cybulski, Arjun Dey, Peter R. M. Eisenhardt, Audrey Galametz, Anthony H. Gonzalez, Buell T. Jannuzi, S. Adam Stanford, Gregory F. Snyder, Daniel Stern, and Gregory R. Zeimann

Subjects
STELLAR evolution, GALAXIES, WAVELENGTHS, ACTIVE galactic nuclei, SPECTRAL energy distribution
Abstract

We present a detailed, multi-wavelength study of star formation (SF) and active galactic nucleus (AGN) activity in 11 near-infrared (IR) selected, spectroscopically confirmed massive (≳1014M) galaxy clusters at 1 < z < 1.75. Using new deep Herschel/PACS imaging, we characterize the optical to far-IR spectral energy distributions (SEDs) for IR-luminous cluster galaxies, finding that they can, on average, be well described by field galaxy templates. Identification and decomposition of AGNs through SED fittings allows us to include the contribution to cluster SF from AGN host galaxies. We quantify the star-forming fraction, dust-obscured SF rates (SFRs) and specific SFRs for cluster galaxies as a function of cluster-centric radius and redshift. In good agreement with previous studies, we find that SF in cluster galaxies at z ≳ 1.4 is largely consistent with field galaxies at similar epochs, indicating an era before significant quenching in the cluster cores (r < 0.5 Mpc). This is followed by a transition to lower SF activity as environmental quenching dominates by z ∼ 1. Enhanced SFRs are found in lower mass () cluster galaxies. We find significant variation in SF from cluster to cluster within our uniformly selected sample, indicating that caution should be taken when evaluating individual clusters. We examine AGNs in clusters from z = 0.5–2, finding an excess AGN fraction at z ≳ 1, suggesting environmental triggering of AGNs during this epoch. We argue that our results—a transition from field-like to quenched SF, enhanced SF in lower mass galaxies in the cluster cores, and excess AGNs—are consistent with a co-evolution between SF and AGNs in clusters and an increased merger rate in massive halos at high redshift. [ABSTRACT FROM AUTHOR]

Published
2016
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7. THE MOST LUMINOUS GALAXIES DISCOVERED BY WISE.

Author

Chao-Wei Tsai, Peter R. M. Eisenhardt, Jingwen Wu, Daniel Stern, Roberto J. Assef, Andrew W. Blain, Carrie R. Bridge, Dominic J. Benford, Roc M. Cutri, Roger L. Griffith, Thomas H. Jarrett, Carol J. Lonsdale, Frank J. Masci, Leonidas A. Moustakas, Sara M. Petty, Jack Sayers, S. Adam Stanford, Edward L. Wright, Lin Yan, and David T. Leisawitz

Subjects
GALAXIES, QUASARS, BLACK holes, STARS, ASTRONOMY
Abstract

We present 20 Wide-field Infrared Survey Explorer (WISE)-selected galaxies with bolometric luminosities Lbol > 1014L, including five with infrared luminosities LIR ≡ L(rest 8–1000 μm) > 1014L. These “extremely luminous infrared galaxies,” or ELIRGs, were discovered using the “W1W2-dropout” selection criteria which requires marginal or non-detections at 3.4 and 4.6 μm (W1 and W2, respectively) but strong detections at 12 and 22 μm in the WISE survey. Their spectral energy distributions are dominated by emission at rest-frame 4–10 μm, suggesting that hot dust with Td ∼ 450 K is responsible for the high luminosities. These galaxies are likely powered by highly obscured active galactic nuclei (AGNs), and there is no evidence suggesting these systems are beamed or lensed. We compare this WISE-selected sample with 116 optically selected quasars that reach the same Lbol level, corresponding to the most luminous unobscured quasars in the literature. We find that the rest-frame 5.8 and 7.8 μm luminosities of the WISE-selected ELIRGs can be 30%–80% higher than that of the unobscured quasars. The existence of AGNs with Lbol > 1014L at z > 3 suggests that these supermassive black holes are born with large mass, or have very rapid mass assembly. For black hole seed masses ∼103M, either sustained super-Eddington accretion is needed, or the radiative efficiency must be <15%, implying a black hole with slow spin, possibly due to chaotic accretion. [ABSTRACT FROM AUTHOR]

Published
2015
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8. EARLY-TYPE GALAXIES AT z = 1.3. I. THE LYNX SUPERCLUSTER: CLUSTER AND GROUPS AT z = 1.3. MORPHOLOGY AND COLOR-MAGNITUDE RELATION.

Author

Mei, Simona, Adam Stanford, S., Holden, Brad P., Raichoor, Anand, Postman, Marc, Nakata, Fumiaki, Finoguenov, Alexis, Ford, Holland C., Illingworth, Garth D., Kodama, Tadayuki, Rosati, Piero, Tanaka, Masayuki, Huertas-Company, Marc, Rettura, Alessandro, Shankar, Francesco, Carrasco, Eleazar R., Demarco, Ricardo, Eisenhardt, Peter, Jee, Myungkook J., and Koyama, Yusei

Subjects
*GALAXY clusters, *GALACTIC redshift, *GALACTIC bulges, *SPIRAL galaxies, *GALACTIC magnitudes
Abstract

We confirm the detection of three groups in the Lynx supercluster, at z ≈ 1.3, through spectroscopic follow-up and X-ray imaging, and we give estimates for their redshifts and masses. We study the properties of the group galaxies compared to the two central clusters, RX J0849+4452 and RX J0848+4453. Using spectroscopic follow-up and multi-wavelength photometric redshifts, we select 89 galaxies in the clusters, of which 41 are spectroscopically confirmed, and 74 galaxies in the groups, of which 25 are spectroscopically confirmed. We morphologically classify galaxies by visual inspection, noting that our early-type galaxy (ETG) sample would have been contaminated at the 30%-40% level by simple automated classification methods (e.g., based on Sérsic index). In luminosity-selected samples, both clusters and groups show high fractions of bulge-dominated galaxies with a diffuse component that we visually identified as a disk and which we classified as bulge-dominated spirals, e.g., Sas. The ETG fractions never rise above ≈50% in the clusters, which is low compared to the fractions observed in other massive clusters at z ≈ 1. In the groups, ETG fractions never exceed ≈25%. However, overall bulge-dominated galaxy fractions (ETG plus Sas) are similar to those observed for ETGs in clusters at z ∼ 1. Bulge-dominated galaxies visually classified as spirals might also be ETGs with tidal features or merger remnants. They are mainly red and passive, and span a large range in luminosity. Their star formation seems to have been quenched before experiencing a morphological transformation. Because their fraction is smaller at lower redshifts, they might be the spiral population that evolves into ETGs. For mass-selected samples of galaxies with masses M > 1010.6M☼ within Σ > 500 Mpc–2, the ETG and overall bulge-dominated galaxy fractions show no significant evolution with respect to local clusters, suggesting that morphological transformations might occur at lower masses and densities. The ETG mass-size relation shows evolution toward smaller sizes at higher redshift in both clusters and groups, while the late-type mass-size relation matches that observed locally. When compared to the clusters, the group ETG red sequence shows lower zero points (at ∼2σ) and larger scatters, both expected to be an indication of a younger galaxy population. However, we show that any allowed difference between the age in groups and clusters would be small when compared to the differences in age in galaxies of different masses. [ABSTRACT FROM AUTHOR]

Published
2012
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