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7 results on '"HAYDEN, BRIAN"'

1. An Assessment of the In Situ Growth of the Intracluster Light in the High-redshift Galaxy Cluster SpARCS1049+56.

Author

Barfety, Capucine, Valin, FĂ©lix-Antoine, Webb, Tracy M. A., Yun, Min, Shipley, Heath, Boone, Kyle, Hayden, Brian, Hlavacek-Larrondo, Julie, Muzzin, Adam, Noble, Allison G., Perlmutter, Saul, Rhea, Carter, Wilson, Gillian, and Yee, H. K. C.

Subjects
GALAXY clusters, GALACTIC redshift, STELLAR mass, STAR formation, ACTIVE galactic nuclei, MOLECULAR spectroscopy
Abstract

The formation of the stellar mass within galaxy cluster cores is a poorly understood process. It features the complicated physics of cooling flows, active galactic nucleus feedback, star formation, and more. Here we study the growth of the stellar mass in the vicinity of the brightest cluster galaxy (BCG) in a z = 1.7 cluster, SpARCS1049+56. We synthesize a reanalysis of existing Hubble Space Telescope imaging, a previously published measurement of the star formation rate, and the results of new radio molecular gas spectroscopy. These analyses represent the past, present, and future star formation, respectively, within this system. We show that a large amount of stellar massâ€"between (2.2 ± 0.5) Ă— 1010 M ⊙ and (6.6 ± 1.2) Ă— 1010 M ⊙ depending on the data processingâ€"exists in a long and clumpy tail-like structure that lies roughly 12 kpc off the BCG. Spatially coincident with this stellar mass is a similarly massive reservoir ((1.0 ± 0.7) Ă— 1011 M ⊙) of molecular gas that we suggest is the fuel for the immense star formation rate of 860 ± 130 M ⊙ yrâˆ'1, as measured by infrared observations. Hlavacek-Larrondo et al. surmised that massive, runaway cooling of the hot intracluster X-ray gas was feeding this star formation, a process that had not been observed before at high redshift. We conclude, based on the amount of fuel and current stars, that this event may be rare in the lifetime of a cluster, producing roughly 15%â€"21% of the intracluster light mass in one go, though perhaps a common event for all galaxy clusters. [ABSTRACT FROM AUTHOR]

Published
2022
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2. The HST See Change Program. I. Survey Design, Pipeline, and Supernova Discoveries.

Author

Hayden, Brian, Rubin, David, Boone, Kyle, Aldering, Greg, Nordin, Jakob, Brodwin, Mark, Deustua, Susana, Dixon, Sam, Fagrelius, Parker, Fruchter, Andy, Eisenhardt, Peter, Gonzalez, Anthony, Gupta, Ravi, Hook, Isobel, Lidman, Chris, Luther, Kyle, Muzzin, Adam, Raha, Zachary, Ruiz-Lapuente, Pilar, and Saunders, Clare

Subjects
*TYPE I supernovae, *GALAXY clusters, *SUPERNOVAE, *STELLAR mass, *SPACE telescopes, *STAR clusters
Abstract

The See Change survey was designed to make z > 1 cosmological measurements by efficiently discovering high-redshift Type Ia supernovae (SNe Ia) and improving cluster mass measurements through weak lensing. This survey observed twelve galaxy clusters with the Hubble Space Telescope (HST) spanning the redshift range z = 1.13–1.75, discovering 57 likely transients and 27 likely SNe Ia at z ∼ 0.8–2.3. As in similar previous surveys, this proved to be a highly efficient use of HST for supernova observations; the See Change survey additionally tested the feasibility of maintaining, or further increasing, the efficiency at yet higher redshifts, where we have less detailed information on the expected cluster masses and star formation rates. We find that the resulting number of SNe Ia per orbit is a factor of ∼8 higher than for a field search, and 45% of our orbits contained an active SN Ia within 22 rest-frame days of peak, with one of the clusters by itself yielding 6 of the SNe Ia. We present the survey design, pipeline, and supernova discoveries. Novel features include fully blinded supernova searches, the first random forest candidate classifier for undersampled IR data (with a 50% detection threshold within 0.05 mag of human searchers), real-time forward-modeling photometry of candidates, and semi-automated photometric classifications and follow-up forecasts. We also describe the spectroscopic follow-up, instrumental in measuring host galaxy redshifts. The cosmology analysis of our sample will be presented in a companion paper. [ABSTRACT FROM AUTHOR]

Published
2021
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3. The Morphology–Density Relationship in 1 < z < 2 Clusters.

Author

Sazonova, Elizaveta, Alatalo, Katherine, Lotz, Jennifer, Rowlands, Kate, Snyder, Gregory F., Boone, Kyle, Brodwin, Mark, Hayden, Brian, Lanz, Lauranne, Perlmutter, Saul, and Rodriguez-Gomez, Vicente

Subjects
MONTE Carlo method, ELLIPTICAL galaxies, DEGREES of freedom, SPACE telescopes, GALAXIES, GALAXY clusters
Abstract

The morphology–density relationship states that dense cosmic environments such as galaxy clusters have an overabundance of quiescent elliptical galaxies, but it is unclear at which redshift this relationship is first established. We study the morphology of four clusters with 1.2 < z < 1.8 using Hubble Space Telescope imaging and the morphology computation code statmorph. By comparing the median morphology of cluster galaxies to CANDELS field galaxies using Monte Carlo analysis, we find that two out of four clusters (at z = 1.19 and 1.75) have an established morphology–density relationship with more than 3σ significance. Approximately 50% of the galaxies in these clusters are bulge-dominated, compared to ∼30% in the field, and they are significantly more compact. This result is more significant for low-mass galaxies with , showing that low-mass galaxies are affected the most in clusters. We also find an intriguing system of two z ≈ 1.45 clusters at a unusually small 2D separation of 3′ and 3D separation of ≈73 Mpc that exhibit no morphology–density relationship but have enhanced merger signatures. We conclude that the environmental mechanism responsible for the morphology–density relationship is (1) already active as early as z = 1.75; (2) forms compact, bulge-dominated galaxies; and (3) affects primarily low-mass galaxies. However, there is a significant degree of intracluster variance that may depend on the larger cosmological environment in which the cluster is embedded. [ABSTRACT FROM AUTHOR]

Published
2020
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4. THE DISCOVERY OF THE MOST DISTANT KNOWN TYPE Ia SUPERNOVA AT REDSHIFT 1.914.

Author

JONES, DAVID O., RODNEY, STEVEN A., RIESS, ADAM G., MOBASHER, BAHRAM, DAHLEN, TOMAS, MCCULLY, CURTIS, FREDERIKSEN, TEDDY F., CASERTANO, STEFANO, HJORTH, JENS, KEETON, CHARLES R., KOEKEMOER, ANTON, STROLGER, LOUIS-GREGORY, WIKLIND, TOMMY G., CHALLIS, PETER, GRAUR, OR, HAYDEN, BRIAN, PATEL, BRANDON, WEINER, BENJAMIN J., FILIPPENKO, ALEXEI V., and GARNAVICH, PETER

Subjects
GALAXY spectra, ASTRONOMICAL spectroscopy, METAPHYSICAL cosmology, SOLAR activity
Abstract

We present the discovery of a Type Ia supernova (SN) at redshift z = 1.914 from the CANDELS multi-cycle treasury program on the Hubble Space Telescope (HST). This SN was discovered in the infrared using the Wide- Field Camera 3, and it is the highest-redshift Type Ia SN yet observed. We classify this object as a SN Ia by comparing its light curve and spectrum with those of a large sample of Type Ia and core-collapse SNe. Its apparent magnitude is consistent with that expected from the ΛCDM concordance cosmology.We discuss the use of spectral evidence for classification of z > 1.5 SNe Ia using HST grism simulations, finding that spectral data alone can frequently rule out SNe II, but distinguishing between SNe Ia and SNe Ib/c can require prohibitively long exposures. In such cases, a quantitative analysis of the light curve may be necessary for classification. Our photometric and spectroscopic classification methods can aid the determination of SN rates and cosmological parameters from the full high-redshift CANDELS SN sample. [ABSTRACT FROM AUTHOR]

Published
2013
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5. A TYPE Ia SUPERNOVA AT REDSHIFT 1.55 IN HUBBLE SPACE TELESCOPE INFRARED OBSERVATIONS FROM CANDELS.

Author

Rodney, Steven A., Riess, Adam G., Dahlen, Tomas, Strolger, Louis-Gregory, Ferguson, Henry C., Hjorth, Jens, Frederiksen, Teddy F., Weiner, Benjamin J., Mobasher, Bahram, Casertano, Stefano, Jones, David O., Challis, Peter, Faber, S. M., Filippenko, Alexei V., Garnavich, Peter, Graur, Or, Grogin, Norman A., Hayden, Brian, Jha, Saurabh W., and Kirshner, Robert P.

Subjects
TYPE I supernovae, REDSHIFT, ASTRONOMICAL spectroscopy, ASTRONOMY
Abstract

We report the discovery of a Type la supernova (SN Ia) at redshift z = 1.55 with the infrared detector of the Wide Field Camera 3 (WFC3-IR) on the Hubble Space Telescope (HST). This object was discovered in CANDELS imaging data of the Hubble Ultra Deep Field and followed as part of the CANDELS+CLASH Supernova project, comprising the SN search components from those two HST multi-cycle treasury programs. This is the highest redshift SN Ia with direct spectroscopic evidence for classification. It is also the first SN Ia at z > 1 found and followed in the infrared, providing a full light curve in rest-frame optical bands. The classification and redshift are securely defined from a combination of multi-band and multi-epoch photometry of the SN, ground-based spectroscopy of the host galaxy, and WFC3-IR grism spectroscopy of both the SN and host. This object is the first of a projected sample at z > 1.5 that will be discovered by the CANDELS and CLASH programs. The full CANDELS+CLASH SN Ia sample will enable unique tests for evolutionary effects that could arise due to differences in SN Ia progenitor systems as a function of redshift. This high-z sample will also allow measurement of the SN Ia rate out to z ≈ 2, providing a complementary constraint on SN Ia progenitor models. [ABSTRACT FROM AUTHOR]

Published
2012
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