Your search keyword '"Silverman, John"' showing total 4 results

1. The Chandra Multi-wavelength Project: Optical Spectroscopy and the Broadband Spectral Energy Distributions of X-Ray-selected AGNs.

Author

Trichas, Markos, Green, Paul J., Silverman, John D., Aldcroft, Tom, Barkhouse, Wayne, Cameron, Robert A., Constantin, Anca, Ellison, Sara L., Foltz, Craig, Haggard, Daryl, Jannuzi, Buell T., Kim, Dong-Woo, Marshall, Herman L., Mossman, Amy E., Pérez, Laura M., Romero-Colmenero, Encarni, Ruiz, Angel, Smith, Malcolm G., Smith, Paul S., Torres, Guillermo, Wik, Daniel R., Wilkes, Belinda Jane, and Wolfgang, Angie

Abstract

From optical spectroscopy of X-ray sources observed as part of ChaMP, we present redshifts and classifications for a total of 1569 Chandra sources from our targeted spectroscopic follow up using the FLWO, SAAO, WIYN, CTIO, KPNO, Magellan, MMT and Gemini telescopes, and from archival SDSS spectroscopy. We classify the optical counterparts as 50% BLAGN, 16% NELG, 14% ALG, and 20% stars. We detect QSOs out to z~5.5 and galaxies out to z~3. We have compiled extensive photometry from X-ray to radio bands. Together with our spectroscopic information, this enables us to derive detailed SEDs for our extragalactic sources. We fit a variety of templates to determine bolometric luminosities, and to constrain AGN and starburst components where both are present. While ~58% of X-ray Seyferts require a starburst event to fit observed photometry only 26% of the X-ray QSO population appear to have some kind of star formation contribution. This is significantly lower than for the Seyferts, especially if we take into account torus contamination at z>1 where the majority of our X-ray QSOs lie. In addition, we observe a rapid drop of the percentage of starburst contribution as X-ray luminosity increases. This is consistent with the quenching of star formation by powerful QSOs, as predicted by the merger model, or with a time lag between the peak of star formation and QSO activity. We have tested the hypothesis that there should be a strong connection between X-ray obscuration and star-formation but we do not find any association between X-ray column density and star formation rate both in the general population or the star-forming X-ray Seyferts. Our large compilation also allows us to report here the identification of 81 XBONG, 78 z>3 X-ray sources and 8 Type-2 QSO candidates. Also we have identified the highest redshift (z=5.4135) X-ray selected QSO with optical spectroscopy., Astronomy

Published

2012

2. Chandra Multiwavelength Project X‐Ray Point Source Number Counts and the Cosmic X‐Ray Background

Author

Kim, Minsun, Wilkes, Belinda Jane, Kim, Dong‐Woo, Green, Paul J., Barkhouse, Wayne A., Lee, Myung Gyoon, Silverman, John D., and Tananbaum, Harvey D.

Subjects

Cosmology: observations, Methods: data analysis, Surveys, X-rays: diffuse background, X-rays: general

Abstract

We present the Chandra Multiwavelength Project (ChaMP) X-ray point source number counts and cosmic X-ray background (CXRB) flux densities in multiple energy bands. From the ChaMP X-ray point source catalog, ~5500 sources are selected, covering 9.6 deg2 in sky area. To quantitatively characterize the sensitivity and completeness of the ChaMP sample, we perform extensive simulations. We also include the ChaMP+CDFs (Chandra Deep Fields) number counts to cover large flux ranges from 2 × 10-17 to 2.4 × 10-12 (0.5-2 keV) and from 2 × 10-16 to 7.1 × 10-12 (2-8 keV) ergs cm-2 s-1. The ChaMP and the ChaMP+CDFs differential number counts are well fitted with a broken power law. The best-fit faint and bright power indices are 1.49 ± 0.02 and 2.36 ± 0.05 (0.5-2 keV), and 1.58 ± 0.01 and 2.59img1.gif (2-8 keV), respectively. We detect breaks in the differential number counts that appear at different fluxes in different energy bands. Assuming a single power-law model for a source spectrum, we find that the same population(s) of soft X-ray sources causes the break in the differential number counts for all energy bands. We measure the resolved CXRB flux densities from the ChaMP and the ChaMP+CDFs number counts with and without bright target sources. By adding the known unresolved CXRB to the ChaMP+CDF resolved CXRB, we also estimate total CXRB flux densities. The fractions of the resolved CXRB without target sources are 78% ± 1% and 81% ± 2% in the 0.5-2 and 2-8 keV bands, respectively, somewhat lower than but generally consistent with earlier numbers because of their large errors. These fractions increase by ~1% when target sources are included., Astronomy

Published

2007

3. Chandra Multiwavelength Project X‐Ray Point Source Catalog

Author

Kim, Minsun, Kim, Dong‐Woo, Wilkes, Belinda Jane, Green, Paul J., Kim, Eunhyeuk, Anderson, Craig Stephen, Barkhouse, Wayne A., Evans, Nancy Remage, Ivezi?, ?eljko, Karovska Neily, Margarita, Kashyap, Vinay L., Lee, Myung Gyoon, Maksym, W. Peter, Mossman, Amy E., Silverman, John D., and Tananbaum, Harvey D.

Subjects

Catalogs, Surveys, X-rays: general

Abstract

We present the Chandra Multiwavelength Project (ChaMP) X-ray point source catalog with ~6800 X-ray sources detected in 149 Chandra observations covering ~10 deg2. The full ChaMP catalog sample is 7 times larger than the initial published ChaMP catalog. The exposure time of the fields in our sample ranges from 0.9 to 124 ks, corresponding to a deepest X-ray flux limit of f0.5-8.0 = 9 × 10-16 ergs cm-2 s-1. The ChaMP X-ray data have been uniformly reduced and analyzed with ChaMP-specific pipelines and then carefully validated by visual inspection. The ChaMP catalog includes X-ray photometric data in eight different energy bands as well as X-ray spectral hardness ratios and colors. To best utilize the ChaMP catalog, we also present the source reliability, detection probability, and positional uncertainty. To quantitatively assess those parameters, we performed extensive simulations. In particular, we present a set of empirical equations: the flux limit as a function of effective exposure time and the positional uncertainty as a function of source counts and off-axis angle. The false source detection rate is ~1% of all detected ChaMP sources, while the detection probability is better than ~95% for sources with counts gsim30 and off-axis angle <5'. The typical positional offset between ChaMP X-ray source and their SDSS optical counterparts is 0.7'' ± 0.4'', derived from ~900 matched sources., Astronomy

Published

2007

4. Discovery of a z = 4.93, X-Ray-selected Quasar by the Chandra Multiwavelength Project (ChaMP)

Author

Silverman, John D., Green, Paul J., Kim, Dong-Woo, Wilkes, Belinda Jane, Cameron, Robert A., Morris, David, Dosaj, Anil, Smith, Chris, Infante, Leopoldo, Smith, Paul S., Jannuzi, Buell T., and Mathur, Smita

Subjects

Galaxies: active, Galaxies: nuclei, Quasars: general, Quasars: individual (CXOMP J213945.0 234655), X-rays: general

Abstract

We present X-ray and optical observations of CXOMP J213945.0-234655, a high-redshift (z = 4.93) quasar discovered through the Chandra Multiwavelength Project (ChaMP). This object is the most distant X-ray-selected quasar published, with a rest-frame X-ray luminosity of LX = 5.9 × 1044 ergs s-1 (measured in the 0.3-2.5 keV band and corrected for Galactic absorption). CXOMP J213945.0-234655 is a g' dropout object (>26.2), with r' = 22.87 and i' = 21.36. The rest-frame X-ray-to-optical flux ratio is similar to quasars at lower redshifts and slightly X-ray bright relative to z > 4 optically selected quasars observed with Chandra. The ChaMP is beginning to acquire significant numbers of high-redshift quasars to investigate the X-ray luminosity function out to z ~ 5., Astronomy

Published

2002