Tracing the Nuclear Accretion History of the Red Galaxy Population

Brand, Kate; Dey, Arjun; Brown, M. J. I.; Watson, Casey; Jannuzi, Buell T.; Najita, J.; Kochanek, C. S.; Shields, J. C.; Fazio, G. G.; Forman, W.; Green, Paul; Jones, Christine; Kenter, A.; McNamara, B. R.; Murray, S. S.; Rieke, M. J.; Vikhlinin, A.

doi:10.1086/430124

Cited by 25 publications

(30 citation statements)

References 59 publications

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“…For the 2004 observing season, AGES targeted sources from the NDWFS catalog (B. T. Jannuzi et al 2005, in preparation) with R < 21:5, with priorities based on the multiwavelength photometry available. AGES observed (1) all extended sources with R 19:2, (2) a randomly selected 20% of extended sources with 19:2 < R 20, (3) all R 20 extended sources with IRAC 3.6, 4.5, 5.8, and 8.0 m magnitudes less than or equal to 15.2, 15.2, 14.7, and 13.2, respectively, and (4) fainter sources with a strong selection bias in favor of counterparts to X-ray sources from Chandra imaging of the field (Murray et al 2005;Brand et al 2005;Kenter et al 2005), radio sources from the FIRST survey (Becker et al 1995), and 24 m sources with nonstellar J À [24] colors, where the 24 m data derive from the Multiband Imaging Photometer for Spitzer (Rieke et al 2004) observations of the field (E. Le Floc'h et al 2005, in preparation). C. Kochanek et al (2005, in preparation) provide a more detailed description of the target selection.…”

Section: Irac Shallow Surveymentioning

confidence: 99%

Mid‐Infrared Selection of Active Galaxies

Stern

Eisenhardt

Gorjian

et al. 2005

ApJ

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952

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Mid-infrared photometry provides a robust technique for identifying active galaxies. While the ultraviolet to mid-infrared (k P 5 m) continuum of stellar populations is dominated by the composite blackbody curve and peaks at approximately 1.6 m, the ultraviolet to mid-infrared continuum of active galactic nuclei (AGNs) is dominated by a power law. Consequently, with a sufficient wavelength baseline, one can easily distinguish AGNs from stellar populations. Mirroring the tendency of AGNs to be bluer than galaxies in the ultraviolet, where galaxies (and stars) sample the blue, rising portion of stellar spectra, AGNs tend to be redder than galaxies in the mid-infrared, where galaxies sample the red, falling portion of the stellar spectra. We report on Spitzer Space Telescope mid-infrared colors, derived from the IRAC Shallow Survey, of nearly 10,000 spectroscopically identified sources from the AGN and Galaxy Evolution Survey. On the basis of this spectroscopic sample, we find that simple mid-infrared color criteria provide remarkably robust separation of active galaxies from normal galaxies and Galactic stars, with over 80% completeness and less than 20% contamination. Considering only broad-lined AGNs, these mid-infrared color criteria identify over 90% of spectroscopically identified quasars and Seyfert 1 galaxies. Applying these color criteria to the full imaging data set, we discuss the implied surface density of AGNs and find evidence for a large population of optically obscured active galaxies.

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Section: Irac Shallow Surveymentioning

confidence: 99%

Mid‐Infrared Selection of Active Galaxies

Stern

Eisenhardt

Gorjian

et al. 2005

ApJ

Self Cite

952

1,678

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“…From the measured spectra, detecting these sources individually may be difficult; however, the stacking method may prove advantageous. Stacking effectively increases the total observation rate by combining the individual event rates from identical sources [75][76][77][78]. Stacking of the observed muon data may improve the prospects of determining whether neutrinos are present and help unveil the mystery of these unknown sources.…”

Section: A Multitude Of Tev Sourcesmentioning

confidence: 99%

Guaranteed and prospective Galactic TeV neutrino sources

2006

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Recent observations, particularly from the HESS Collaboration, have revealed rich Galactic populations of TeV gamma-ray sources, including a collection unseen in other wavelengths. Many of these gamma-ray spectra are well measured up to 10 TeV, where low statistics make observations by air Č erenkov telescopes difficult. To understand these mysterious sources, especially at much higher energies-where a cutoff should eventually appear -new techniques are needed. We point out the following: (1) For a number of sources, it is very likely that pions, and hence TeV neutrinos, are produced; (2) As a general point, neutrinos should be a better probe of the highest energies than gamma rays, due to increasing detector efficiency; and (3) For several specific sources, the detection prospects for km 3 neutrino telescopes are very good, 1-10 events/year, with low atmospheric neutrino background rates above reasonable energy thresholds. Such signal rates, as small as they may seem, will allow neutrino telescopes to powerfully discriminate between models for the Galactic TeV sources, with important consequences for our understanding of cosmic-ray production.

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“…Additionally, for low-luminosity AGNs, the optical light can be overwhelmed by the host galaxy light; X-rays, once again, are helpful in this respect because galaxies themselves are not very bright in X-rays. Indeed, there have been several successful efforts using X-rays to identify AGN activity in galaxies residing in clusters and in fields (Brand et al 2005).…”

Section: Introductionmentioning

confidence: 99%

Discovery of Nuclear X-Ray Sources in Sings Galaxies

Grier¹,

Mathur²,

Ghosh³

et al. 2011

ApJ

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We present the results of a search for nuclear X-ray activity in nearby galaxies using Chandra archival data in a sample of 62 galaxies from the Spitzer Infrared Nearby Galaxy Survey. We detect 37 nuclear X-ray sources; seven of these are new detections. Most of the nuclear X-ray sources are likely to be active galactic nuclei (AGNs). The fraction of galaxies hosting AGNs is thus about 60%, much higher than that found with optical searches, and demonstrates the efficacy of X-ray observations to find hidden AGNs in optically normal galaxies. We find that the nuclear X-ray sources are preferentially present in earlier type galaxies. Unlike what is observed at high redshift for high-luminosity AGNs, we do not find a strong correlation between the AGN luminosity and the 24 μm luminosity of the host galaxy; we find a strong correlation with the 3.6 μm luminosity instead. This suggests that at the present epoch, the accretion rate depends on the total mass of the galaxy, as perhaps does the black hole mass.

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Tracing the Nuclear Accretion History of the Red Galaxy Population

Abstract: We investigate the evolution of the hard X-ray luminosity of the red galaxy population using a large sample of 3316 red galaxies selected over a wide range in redshift (0.3 Show more

Cited by 25 publications

References 59 publications

Mid‐Infrared Selection of Active Galaxies

Mid‐Infrared Selection of Active Galaxies

Guaranteed and prospective Galactic TeV neutrino sources

Discovery of Nuclear X-Ray Sources in Sings Galaxies

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