Your search keyword '"Hickox, Ryan C."' showing total 27 results

1. GALAXIES PROBING GALAXIES AT HIGH RESOLUTION: CO-ROTATING GAS ASSOCIATED WITH A MILKY WAY ANALOG AT z=0.4

Author

Diamond-Stanic, Aleksandar M, Coil, Alison L, Moustakas, John, Tremonti, Christy A, Sell, Paul H, Mendez, Alexander J, Hickox, Ryan C, and Rudnick, Greg H

Subjects

galaxies: evolution, galaxies: halos, galaxies: ISM, Astronomy & Astrophysics, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)

Published

2016

2. Extending the Dynamic Range of Galaxy Outflow Scaling Relations: Massive Compact Galaxies with Extreme Outflows.

Author

Davis, Julie D., Tremonti, Christy A., Swiggum, Cameren N., Moustakas, John, Diamond-Stanic, Aleksandar M., Coil, Alison L., Geach, James E., Hickox, Ryan C., Perrotta, Serena, Petter, Grayson C., Rudnick, Gregory H., Rupke, David S. N., Sell, Paul H., and Whalen, Kelly E.

Subjects

GALAXIES, STAR formation, BLACK holes, WIND speed, OPTICAL spectra, STELLAR mass, GALAXY mergers

Abstract

We investigate galactic winds in the HizEA galaxies, a collection of 46 late-stage galaxy mergers at z = 0.4–0.8, with stellar masses of log (M * / M ⊙) = 10.4 – 11.5 , star formation rates (SFRs) of 20–500 M ⊙ yr−1, and ultra-compact (a few 100 pc) central star-forming regions. We measure their gas kinematics using the Mg ii λ λ 2796,2803 absorption lines in optical spectra from MMT, Magellan, and Keck. We find evidence of outflows in 90% of targets, with maximum outflow velocities of 550–3200 km s−1. We combine these data with ten samples from the literature to construct scaling relations for outflow velocity versus SFR, star formation surface density (ΣSFR), M *, and SFR/ M *. The HizEA galaxies extend the dynamic range of the scaling relations by a factor of ∼2–4 in outflow velocity and an order of magnitude in SFR and ΣSFR. The ensemble scaling relations exhibit strong correlations between outflow velocity, SFR, SFR/ R, and ΣSFR, and weaker correlations with M * and SFR/ M *. The HizEA galaxies are mild outliers on the SFR and M * scaling relations, but they connect smoothly with more typical star-forming galaxies on plots of outflow velocity versus SFR/ R and ΣSFR. These results provide further evidence that the HizEA galaxies' exceptional outflow velocities are a consequence of their extreme star formation conditions rather than hidden black hole activity, and they strengthen previous claims that ΣSFR is one of the most important properties governing the velocities of galactic winds. [ABSTRACT FROM AUTHOR]

Published

2023

3. The Most Obscured AGNs in the XMM-SERVS Fields.

Author

Yan, Wei, Brandt, W. N., Zou, Fan, Zhu, Shifu, Chen, Chien-Ting J., Hickox, Ryan C., Luo, Bin, Ni, Qingling, Alexander, David M., Bauer, Franz E., Vignali, Cristian, and Vito, Fabio

Subjects

SPECTRAL energy distribution, ACTIVE galactic nuclei, SEYFERT galaxies, SUPERMASSIVE black holes, HARD X-rays, X-ray astronomy, SIGNAL-to-noise ratio

Abstract

We perform X-ray spectral analyses to derive the characteristics (e.g., column density, X-ray luminosity) of ≈10,200 active galactic nuclei (AGNs) in the XMM-Spitzer Extragalactic Representative Volume Survey, which was designed to investigate the growth of supermassive black holes across a wide dynamic range of cosmic environments. Using physical torus models (e.g., Borus02) and a Bayesian approach, we uncover 22 representative Compton-thick (CT; N H > 1.5 × 1024 cm−2) AGN candidates with good signal-to-noise ratios as well as a large sample of 136 heavily obscured AGNs. We also find an increasing CT fraction (f CT) from low (z < 0.75) to high (z > 0.75) redshift. Our CT candidates tend to show hard X-ray spectral shapes and dust extinction in their spectral energy distribution fits, which may shed light on the connection between AGN obscuration and host-galaxy evolution. [ABSTRACT FROM AUTHOR]

Published

2023

4. Kinematics, Structure, and Mass Outflow Rates of Extreme Starburst Galactic Outflows.

Author

Perrotta, Serena, Coil, Alison L., Rupke, David S. N., Tremonti, Christy A., Davis, Julie D., Diamond-Stanic, Aleksandar M., Geach, James E., Hickox, Ryan C., Moustakas, John, Rudnick, Gregory H., Sell, Paul H., Swiggum, Cameren N., and Whalen, Kelly E.

Subjects

KINEMATICS, STAR formation, STARBURSTS, TURBULENT mixing, GALACTIC evolution, COLUMNS

Abstract

We present results on the properties of extreme gas outflows in massive (M * ∼ 1011 M ⊙), compact, starburst (star formation rate, SFR∼ 200 M ⊙ yr−1) galaxies at z = 0.4–0.7 with very high star formation surface densities (ΣSFR ∼ 2000 M ⊙ yr−1 kpc−2). Using optical Keck/HIRES spectroscopy of 14 HizEA starburst galaxies, we identify outflows with maximum velocities of 820–2860 km s−1. High-resolution spectroscopy allows us to measure precise column densities and covering fractions as a function of outflow velocity and characterize the kinematics and structure of the cool gas outflow phase (T ∼ 104 K). We find substantial variation in the absorption profiles, which likely reflects the complex morphology of inhomogeneously distributed, clumpy gas and the intricacy of the turbulent mixing layers between the cold and hot outflow phases. There is not a straightforward correlation between the bursts in the galaxies' star formation histories and their wind absorption line profiles, as might naively be expected for starburst-driven winds. The lack of strong Mg ii absorption at the systemic velocity is likely an orientation effect, where the observations are down the axis of a blowout. We infer high mass outflow rates of ∼50–2200 M ⊙ yr−1, assuming a fiducial outflow size of 5 kpc, and mass loading factors of η ∼ 5 for most of the sample. While these values have high uncertainties, they suggest that starburst galaxies are capable of ejecting very large amounts of cool gas that will substantially impact their future evolution. [ABSTRACT FROM AUTHOR]

Published

2023

5. Are Active Galactic Nuclei in Post-starburst Galaxies Driving the Change or Along for the Ride?

Author

Lanz, Lauranne, Stepanoff, Sofia, Hickox, Ryan C., Alatalo, Katherine, French, K. Decker, Rowlands, Kate, Nyland, Kristina, Appleton, Philip N., Lacy, Mark, Medling, Anne, Mulchaey, John S., Sazonova, Elizaveta, and Urry, Claudia Megan

Subjects

ACTIVE galactic nuclei, STARBURSTS, GALAXIES, ACTIVE galaxies, GAS reservoirs, STAR formation

Abstract

We present an analysis of 10 ks snapshot Chandra observations of 12 shocked post-starburst galaxies, which provide a window into the unresolved question of active galactic nuclei (AGN) activity in post-starburst galaxies and its role in the transition of galaxies from active star formation to quiescence. While seven of the 12 galaxies have statistically significant detections (with two more marginal detections), the brightest only obtained 10 photons. Given the wide variety of hardness ratios in this sample, we chose to pursue a forward-modeling approach to constrain the intrinsic luminosity and obscuration of these galaxies, rather than stacking. We constrain the intrinsic luminosity of obscured power laws based on the total number of counts and spectral shape, itself mostly set by the obscuration, with hardness ratios consistent with the data. We also tested thermal models. While all the galaxies have power-law models consistent with their observations, a third of the galaxies are better fit as an obscured power law and another third are better fit as thermal emission. If these post-starburst galaxies, early in their transition, contain AGNs, then these are mostly confined to lower obscuration (N H ≤ 1023 cmâˆ'2) and lower luminosity (L 2âˆ'10 keV ≤ 1042 erg sâˆ'1). Two galaxies, however, are clearly best fit as significantly obscured AGNs. At least half of this sample shows evidence of at least low-luminosity AGN activity, though none could radiatively drive out the remaining molecular gas reservoirs. Therefore, these AGNs are more likely along for the ride, having been fed gas by the same processes driving the transition. [ABSTRACT FROM AUTHOR]

Published

2022

6. Host Dark Matter Halos of SDSS Red and Blue Quasars: No Significant Difference in Large-scale Environment.

Author

Petter, Grayson C., Hickox, Ryan C., Alexander, David M., Geach, James E., Myers, Adam D., Rosario, David J., Fawcett, Victoria A., Klindt, Lizelke, and Whalen, Kelly E.

Subjects

*QUASARS, *DARK matter, *GALACTIC halos, *COSMIC background radiation, *ACTIVE galactic nuclei, *ACCRETION disks, *LARGE scale structure (Astronomy), *EVOLUTIONARY models

Abstract

The observed optical colors of quasars are generally interpreted in one of two frameworks: unified models that attribute the color to the random orientation of the accretion disk along the line of sight, and evolutionary models that invoke connections between quasar systems and their environments. We test these schemas by probing the dark matter halo environments of optically selected quasars as a function of g âˆ' i optical color by measuring the two-point correlation functions of ∼0.34 million eBOSS quasars as well as the gravitational deflection of cosmic microwave background photons around ∼0.66 million XDQSO photometric quasar candidates. We do not detect a trend of halo bias with optical color through either analysis, finding that optically selected quasars at 0.8 < z < 2.2 occupy halos of characteristic mass M h ∼ 3 Ă— 1012 h âˆ'1 M ⊙ regardless of their color. This result implies that a quasar’s large-scale halo environment is not strongly connected to its observed optical color. We also confirm the findings of fundamental differences in the radio properties of red and blue quasars by stacking 1.4 GHz FIRST images at their positions, suggesting the observed differences cannot be attributed to orientation. Instead, the differences between red and blue quasars likely arise on nuclear-galactic scales, perhaps owing to reddening by a nuclear dusty wind. Finally, we show that optically selected quasars’ halo environments are also independent of their r âˆ' W2 opticalâ€"infrared colors, while previous work has suggested that mid-infrared-selected obscured quasars occupy more massive halos. We discuss the implications of this result for models of quasar and galaxy coevolution. [ABSTRACT FROM AUTHOR]

Published

2022

7. Chandra Observations of Excess Fe Kα Line Emission in Galaxies with High Star Formation Rates: X-Ray Reflection on Galaxy Scales?

Author

Yan, Wei, Hickox, Ryan C., Chen, Chien-Ting J., Ricci, Claudio, Masini, Alberto, Bauer, Franz E., and Alexander, David M.

Subjects

*X-ray reflection, *STAR formation, *SUPERMASSIVE black holes, *GALAXIES, *SEYFERT galaxies, *STELLAR mass, *ACTIVE galactic nuclei

Abstract

In active galactic nuclei (AGNs), fluorescent Fe Kα (iron) line emission is generally interpreted as originating from obscuring material around a supermassive black hole on the scale of a few parsecs. However, recent Chandra studies indicate the existence of iron line emission extending to kiloparsec scales in the host galaxy. The connection between iron line emission and large-scale material can be spatially resolved directly only in nearby galaxies, but could be inferred in more distant AGNs by a connection between line emission and star-forming gas and dust that is more extended than the parsec-scale torus. Here we present the results from a stacking analysis and X-ray spectral fitting performed on sources in the Chandra Deep Field South (CDFS) 7 Ms observations. From the deep stacked spectra, we select sources with stellar mass at 0.5 < z < 2, obtaining 25 sources with high-infrared (IR) luminosity (star formation rate, SFRFIR ≥ 17 M☉ yr−1) and 32 sources below this threshold. We find that the equivalent width (EW) of the iron line EW(Fe) is a factor of three higher with 3σ significance for high-IR luminosity measured from Herschel observations, indicating a connection between iron line emission and star-forming material on galaxy scales. We show that there is no significant dependence of the EW(Fe) on M* or X-ray luminosity, suggesting that the reflection of AGN X-ray emission over large scales in their host galaxies may be widespread. [ABSTRACT FROM AUTHOR]

Published

2021

8. Compact Starburst Galaxies with Fast Outflows: Central Escape Velocities and Stellar Mass Surface Densities from Multiband Hubble Space Telescope Imaging.

Author

Diamond-Stanic, Aleksandar M., Moustakas, John, Sell, Paul H., Tremonti, Christy A., Coil, Alison L., Davis, Julie D., Geach, James E., Gottlieb, Sophia C. W., Hickox, Ryan C., Kepley, Amanda, Lipscomb, Charles, Rines, Joshua, Rudnick, Gregory H., Thompson, Cristopher, Valdez, Kingdell, Bradna, Christian, Camarillo, Jordan, Cinquino, Eve, Ohene, Senyo, and Perrotta, Serena

Subjects

STELLAR density (Stellar population), SPACE telescopes, EDDINGTON mass limit, STELLAR mass, STARBURSTS, VELOCITY

Abstract

We present multiband Hubble Space Telescope imaging that spans rest-frame near-ultraviolet through near-infrared wavelengths (–1.1 μm) for 12 compact starburst galaxies at z = 0.4–0.8. These massive galaxies () are driving very fast outflows (–3000 km s−1), and their light profiles are dominated by an extremely compact starburst component (half-light radius ∼ 100 pc). Our goal is to constrain the physical mechanisms responsible for launching these fast outflows by measuring the physical conditions within the central kiloparsec. Based on our stellar population analysis, the central component typically contributes ≈25% of the total stellar mass, and the central escape velocities km s−1 are a factor of two smaller than the observed outflow velocities. This Requires physical mechanisms that can accelerate gas to speeds significantly beyond the central escape velocities, and it makes clear that these fast outflows are capable of traveling into the circumgalactic medium, and potentially beyond. We find central stellar densities kpc−2 comparable to theoretical estimates of the Eddington limit, and we estimate surface densities within the central kiloparsec comparable to those of compact massive galaxies at. Relative to "red nuggets" and "blue nuggets" at , we find significantly smaller re values at a given stellar mass, which we attribute to the dominance of a young stellar component in our sample and the better physical resolution for rest-frame optical observations at versus. We compare to theoretical scenarios involving major mergers and violent disk instability, and we speculate that our galaxies are progenitors of power-law ellipticals in the local universe with prominent stellar cusps. [ABSTRACT FROM AUTHOR]

Published

2021

9. A Large Population of Luminous Active Galactic Nuclei Lacking X-Ray Detections: Evidence for Heavy Obscuration?

Author

Carroll, Christopher M., Hickox, Ryan C., Masini, Alberto, Lanz, Lauranne, Assef, Roberto J., Stern, Daniel, Chen, Chien-Ting J., and Ananna, Tonima T.

Subjects

*ACTIVE galactic nuclei, *X-ray detection, *SPECTRAL energy distribution, *RADIO jets (Astrophysics), *ASTRONOMICAL photometry

Abstract

We present a large sample of infrared-luminous candidate active galactic nuclei (AGNs) that lack X-ray detections in Chandra, XMM-Newton, and NuSTAR fields. We selected all optically detected SDSS sources with redshift measurements, combined additional broadband photometry from WISE, UKIDSS, 2MASS, and GALEX, and modeled the spectral energy distributions (SEDs) of our sample sources. We parameterize nuclear obscuration in our SEDs with and uncover thousands of powerful obscured AGNs that lack X-ray counterparts, many of which are identified as AGN candidates based on straightforward WISE photometric criteria. Using the observed luminosity correlation between rest-frame 2–10 keV () and rest-frame AGN (), we estimate the intrinsic X-ray luminosities of our sample sources and combine these data with flux limits from X-ray catalogs to determine lower limits on nuclear obscuration. Using the ratio of intrinsic-to-observed X-ray luminosity (), we find a significant fraction of sources with column densities approaching cm–2, suggesting that multiwavelength observations are necessary to account for the population of heavily obscured AGNs. We simulate the underlying distribution for the X-ray non-detected sources in our sample through survival analysis, and confirm the presence of AGN activity via X-ray stacking. Our results point to a considerable population of extremely obscured AGNs undetected by current X-ray observatories. [ABSTRACT FROM AUTHOR]

Published

2021

10. Observational Evidence for Enhanced Black Hole Accretion in Giant Elliptical Galaxies.

Author

McDonald, Michael, McNamara, Brian R., Calzadilla, Michael S., Chen, Chien-Ting, Gaspari, Massimo, Hickox, Ryan C., Kara, Erin, and Korchagin, Ilia

Subjects

ELLIPTICAL galaxies, BLACK holes, ACTIVE galaxies, GALACTIC nuclei, DISK galaxies, RADIO galaxies, GALAXY clusters

Abstract

We present a study of the relationship between black hole accretion rate (BHAR) and star formation rate (SFR) in a sample of giant elliptical galaxies. These galaxies, which live at the centers of galaxy groups and clusters, have star formation and black hole activity that is primarily fueled by gas condensing out of the hot intracluster medium. For a sample of 46 galaxies spanning five orders of magnitude in BHAR and SFR, we find a mean ratio of , independent of the methodology used to constrain both SFR and BHAR. This ratio is significantly higher than most previously published values for field galaxies. We investigate whether these high BHAR/SFR ratios are driven by high BHAR, low SFR, or a different accretion efficiency in radio galaxies. The data suggest that the high BHAR/SFR ratios are primarily driven by boosted black hole accretion in spheroidal galaxies compared to their disk counterparts. We propose that the angular momentum of the cool gas is the primary driver in suppressing BHAR in lower-mass galaxies, with massive galaxies accreting gas that has condensed out of the hot phase on nearly radial trajectories. Additionally, we demonstrate that the relationship between specific BHAR and SFR (sBHAR and sSFR) has much less scatter over six orders of magnitude in both parameters, due to competing dependence on morphology between the MBH–M* and BHAR–SFR relations. In general, active galaxies selected by typical techniques have sBHAR/sSFR ∼ 10, while galactic nuclei with no clear AGN signatures have sBHAR/sSFR ∼ 1, consistent with a universal MBH–Mspheroid relation. [ABSTRACT FROM AUTHOR]

Published

2021

11. The Dust-to-gas Ratio and the Role of Radiation Pressure in Luminous, Obscured Quasars.

Author

Jun, Hyunsung D., Assef, Roberto J., Carroll, Christopher M., Hickox, Ryan C., Kim, Yonghwi, Lee, Jaehyun, Ricci, Claudio, and Stern, Daniel

Subjects

QUASARS, RADIATION pressure, ACTIVE galactic nuclei

Abstract

The absence of high-Eddington-ratio, obscured active galactic nuclei (AGNs) in local (z ≲ 0.1) samples of moderate-luminosity AGNs has generally been explained to result from radiation pressure on the dusty gas governing the level of nuclear (≲10 pc) obscuration. However, very high accretion rates are routinely reported among obscured quasars at higher luminosities and may require a different feedback mechanism. We compile constraints on obscuration and Eddington ratio for samples of X-ray, optical, infrared, and submillimeter selected AGNs at quasar luminosities. Whereas moderate-luminosity, obscured AGNs in the local universe have a range of lower Eddington ratios (fEdd ∼ 0.001–0.1), the most luminous (Lbol ≳ 1046 erg s−1) IR/submillimeter-bright, obscured quasars out to z ∼ 3 commonly have very high Eddington ratios (fEdd ∼ 0.11). This apparent lack of radiation-pressure feedback in luminous, obscured quasars is likely coupled with AGN timescales, such that a higher fraction of luminous, obscured quasars are seen because of the short timescale for which quasars are most luminous. When adopting quasar evolutionary scenarios, extended (∼102–3 pc) obscuration may work together with the shorter timescales to explain the observed fraction of obscured, luminous quasars, while outflows driven by radiation pressure will slowly clear this material over the AGN lifetime. [ABSTRACT FROM AUTHOR]

Published

2021

12. Accretion History of AGNs. III. Radiative Efficiency and AGN Contribution to Reionization.

Author

Ananna, Tonima Tasnim, Urry, C. Megan, Treister, Ezequiel, Hickox, Ryan C., Shankar, Francesco, Ricci, Claudio, Cappelluti, Nico, Marchesi, Stefano, and Turner, Tracey Jane

Subjects

KERR black holes, IONIZING radiation, GALACTIC evolution, ACTIVE galactic nuclei, HARD X-rays, SUPERMASSIVE black holes

Abstract

The cosmic history of supermassive black hole (SMBH) growth is important for understanding galaxy evolution, reionization, and the physics of accretion. Recent NuSTAR, Swift-BAT, and Chandra hard X-ray surveys have provided new constraints on the space density of heavily obscured active galactic nuclei (AGNs). Using the new X-ray luminosity function derived from these data, we here estimate the accretion efficiency of SMBHs and their contribution to reionization. We calculate the total ionizing radiation from AGNs as a function of redshift, based on the X radiation and distribution of obscuring column density, converted to ultraviolet (UV) wavelengths. Limiting the luminosity function to unobscured AGNs only, our results agree with current UV luminosity functions of unobscured AGNs. For realistic assumptions about the escape fraction, the contribution of all AGNs to cosmic reionization is ∼4 times lower than the galaxy contribution (23% at z ∼ 6). Our results also offer an observationally constrained prescription that can be used in simulations or models of galaxy evolution. To estimate the average efficiency with which SMBHs convert mass to light, we compare the total radiated energy, converted from X-ray light using a bolometric correction, with the most recent local black hole mass density. The most likely value, η ∼ 0.3–0.34, approaches the theoretical limit for a maximally rotating Kerr black hole, η = 0.42, implying that on average growing SMBHs are spinning rapidly. [ABSTRACT FROM AUTHOR]

Published

2020

13. Deviations from the Infrared-radio Correlation in Massive, Ultracompact Starburst Galaxies.

Author

Petter, Grayson C., Kepley, Amanda A., Hickox, Ryan C., Rudnick, Gregory H., Tremonti, Christy A., Diamond-Stanic, Aleksandar M., Geach, James E., Coil, Alison L., Sell, Paul H., Moustakas, John, Rupke, David S. N., Perrotta, Serena, Whalen, Kelly E., and Davis, Julie D.

Subjects

EDDINGTON mass limit, RADIATION pressure, GALAXY mergers, SYNCHROTRON radiation, STAR formation, STARBURSTS

Abstract

Feedback through energetic outflows has emerged as a key physical process responsible for transforming star-forming galaxies into the quiescent systems observed in the local universe. To explore this process, this paper focuses on a sample of massive and compact merger remnant galaxies hosting high-velocity gaseous outflows (km s−1), found at intermediate redshift (z ∼ 0.6). From their mid-infrared emission and compact morphologies, these galaxies are estimated to have exceptionally large star formation rate (SFR) surface densities (ΣSFR ∼ 103M⊙ yr−1 kpc−2), approaching the Eddington limit for radiation pressure on dust grains. This suggests that star formation feedback may be driving the observed outflows. However, these SFR estimates suffer from significant uncertainties. We therefore sought an independent tracer of star formation to probe the compact starburst activity in these systems. In this paper, we present SFR estimates calculated using 1.5 GHz continuum Jansky Very Large Array observations for 19 of these galaxies. We also present updated infrared (IR) SFRs calculated from WISE survey data. We estimate SFRs from the IR to be larger than those from the radio for 16 out of 19 galaxies by a median factor of 2.5. We find that this deviation is maximized for the most compact galaxies hosting the youngest stellar populations, suggesting that compact starbursts deviate from the IR-radio correlation. We suggest that this deviation stems either from free–free absorption of synchrotron emission, a difference in the timescale over which each indicator traces star formation, or exceptionally hot IR-emitting dust in these ultra-dense galaxies. [ABSTRACT FROM AUTHOR]

Published

2020

14. BLACK HOLE VARIABILITY AND THE STAR FORMATION-ACTIVE GALACTIC NUCLEUS CONNECTION: DO ALL STAR-FORMING GALAXIES HOST AN ACTIVE GALACTIC NUCLEUS?

Author

Hickox, Ryan C., Mullaney, James R., Alexander, David M., Chen, Chien-Ting J., Civano, Francesca M., Goulding, Andy D., and Hainline, Kevin N.

Subjects

*ACTIVE galactic nuclei, *ACTIVE galaxies, *STAR formation, *STELLAR evolution, *STELLAR luminosity function

Abstract

We investigate the effect of active galactic nucleus (AGN) variability on the observed connection between star formation and black hole accretion in extragalactic surveys. Recent studies have reported relatively weak correlations between observed AGN luminosities and the properties of AGN hosts, which has been interpreted to imply that there is no direct connection between AGN activity and star formation. However, AGNs may be expected to vary significantly on a wide range of timescales (from hours to Myr) that are far shorter than the typical timescale for star formation (≳100 Myr). This variability can have important consequences for observed correlations. We present a simple model in which all star-forming galaxies host an AGN when averaged over ∼100 Myr timescales, with long-term average AGN accretion rates that are perfectly correlated with the star formation rate (SFR). We show that reasonable prescriptions for AGN variability reproduce the observed weak correlations between SFR and LAGN in typical AGN host galaxies, as well as the general trends in the observed AGN luminosity functions, merger fractions, and measurements of the average AGN luminosity as a function of SFR. These results imply that there may be a tight connection between AGN activity and SFR over galaxy evolution timescales, and that the apparent similarities in rest-frame colors, merger rates, and clustering of AGNs compared to “inactive” galaxies may be due primarily to AGN variability. The results provide motivation for future deep, wide extragalactic surveys that can measure the distribution of AGN accretion rates as a function of SFR. [ABSTRACT FROM AUTHOR]

Published

2014

15. A CORRELATION BETWEEN STAR FORMATION RATE AND AVERAGE BLACK HOLE ACCRETION IN STAR-FORMING GALAXIES.

Author

CHIEN-TING J. CHEN, HICKOX, RYAN C., ALBERTS, STACEY, BRODWIN, MARK, JONES, CHRISTINE, MURRAY, STEPHEN S., ALEXANDER, DAVID M., ASSEF, ROBERTO J., BROWN, MICHAEL J. I., DEY, ARJUN, FORMAN, WILLIAM R., GORJIAN, VAROUJAN, GOULDING, ANDREW D., LE FLOC'H, EMERIC, JANNUZI, BUELL T., MULLANEY, JAMES R., and POPE, ALEXANDRA

Subjects

*STAR formation, *ACTIVE galactic nuclei, *STELLAR evolution, *BLACK holes, *REDSHIFT, *ASTRONOMY

Abstract

We present a measurement of the average supermassive black hole accretion rate (BHAR) as a function of the star formation rate (SFR) for galaxies in the redshift range 0.25 < z < 0.8. We study a sample of 1767 far-IR-selected star-forming galaxies in the 9 deg2 Boötes multi-wavelength survey field. The SFR is estimated using 250 μm observations from the Herschel Space Observatory, for which the contribution from the active galactic nucleus (AGN) is minimal. In this sample, 121 AGNs are directly identified using X-ray or mid-IR selection criteria. We combined these detected AGNs and an X-ray stacking analysis for undetected sources to study the average BHAR for all of the star-forming galaxies in our sample. We find an almost linear relation between the average BHAR (in M☉ yr-1) and the SFR (in M☉ yr-1) for galaxies across a wide SFR range 0.85 < log SFR < 2.56 : logBHAR = (-3.72 ± 0.52) + (1.05 ± 0.33) log SFR. This global correlation between SFR and average BHAR is consistent with a simple picture in which SFR and AGN activity are tightly linked over galaxy evolution timescales. [ABSTRACT FROM AUTHOR]

Published

2013

16. CLUSTERING OF OBSCURED AND UNOBSCURED QUASARS IN THE BOÖTES FIELD: PLACING RAPIDLY GROWING BLACK HOLES IN THE COSMIC WEB.

Author

Hickox, Ryan C., Myers, Adam D., Brodwin, Mark, Alexander, David M., Forman, William R., Jones, Christine, Murray, Stephen S., Brown, Michael J. I., Cool, Richard J., Kochanek, Christopher S., Dey, Arjun, Jannuzi, Buell T., Eisenstein, Daniel, Assef, Roberto J., Eisenhardt, Peter R., Gorjian, Varoujan, Stern, Daniel, Floc'h, Emeric Le, Caldwell, Nelson, and Goulding, Andrew D.

Published

2011

17. CONSTRAINING THE OUTBURST PROPERTIES OF THE SMBH IN FORNAX A THROUGH X-RAY, INFRARED, AND RADIO OBSERVATIONS.

Author

Lanz, Lauranne, Jones, Christine, Forman, William R., Ashby, Matthew L. N., Kraft, Ralph, and Hickox, Ryan C.

Published

2010

18. A SPECTROSCOPIC SURVEY OF WISE-SELECTED OBSCURED QUASARS WITH THE SOUTHERN AFRICAN LARGE TELESCOPE.

Author

Hainline, Kevin N., Hickox, Ryan C., Carroll, Christopher M., Myers, Adam D., DiPompeo, Michael A., and Trouille, Laura

Subjects

*ACTIVE galaxies, *GALACTIC nuclei, *ACTIVE galactic nuclei, *GALAXIES, *LARGE astronomical telescopes

Abstract

We present the results of an optical spectroscopic survey of a sample of 40 candidate obscured quasars identified on the basis of their mid-infrared emission detected by the Wide-Field Infrared Survey Explorer (WISE). Optical spectra for this survey were obtained using the Robert Stobie Spectrograph on the Southern African Large Telescope. Our sample was selected with WISE colors characteristic of active galactic nuclei (AGNs), as well as red optical to mid-IR colors indicating that the optical/UV AGN continuum is obscured by dust. We obtain secure redshifts for the majority of the objects that comprise our sample (35/40), and find that sources that are bright in the WISEW4 (22 μm) band are typically at moderate redshift (〈 z〉 = 0.35) while sources fainter in W4 are at higher redshifts (〈 z〉 = 0.73). The majority of the sources have narrow emission lines with optical colors and emission line ratios of our WISE-selected sources that are consistent with the locus of AGN on the rest-frame g – z color versus [Ne III] λ3869/[O II] λλ3726+3729 line ratio diagnostic diagram. We also use empirical AGN and galaxy templates to model the spectral energy distributions (SEDs) for the objects in our sample, and find that while there is significant variation in the observed SEDs for these objects, the majority require a strong AGN component. Finally, we use the results from our analysis of the optical spectra and the SEDs to compare our selection criteria to alternate criteria presented in the literature. These results verify the efficacy of selecting luminous obscured AGNs based on their WISE colors. [ABSTRACT FROM AUTHOR]

Published

2014

19. A UV TO MID-IR STUDY OF AGN SELECTION.

Author

Chung, Sun Mi, Kochanek, Christopher S., Assef, Roberto, Brown, Michael J. I., Stern, Daniel, Jannuzi, Buell T., Gonzalez, Anthony H., Hickox, Ryan C., and Moustakas, John

Subjects

ULTRAVIOLET radiation, DWARF galaxies, GALACTIC redshift, REDSHIFT, PHOTOMETRY

Abstract

We classify the spectral energy distributions (SEDs) of 431,038 sources in the 9 deg2 Boötes field of the NOAO Deep Wide-Field Survey (NDWFS). There are up to 17 bands of data available per source, including ultraviolet (GALEX), optical (NDWFS), near-IR (NEWFIRM), and mid-infrared (IRAC and MIPS) data, as well as spectroscopic redshifts for ∼20,000 objects, primarily from the AGN and Galaxy Evolution Survey. We fit galaxy, active galactic nucleus (AGN), stellar, and brown dwarf templates to the observed SEDs, which yield spectral classes for the Galactic sources and photometric redshifts and galaxy/AGN luminosities for the extragalactic sources. The photometric redshift precision of the galaxy and AGN samples are σ/(1 + z) = 0.040 and σ/(1 + z) = 0.169, respectively, with the worst 5% outliers excluded. On the basis of the of the SED fit for each SED model, we are able to distinguish between Galactic and extragalactic sources for sources brighter than I = 23.5 mag. We compare the SED fits for a galaxy-only model and a galaxy-AGN model. Using known X-ray and spectroscopic AGN samples, we confirm that SED fitting can be successfully used as a method to identify large populations of AGNs, including spatially resolved AGNs with significant contributions from the host galaxy and objects with the emission line ratios of “composite” spectra. We also use our results to compare with the X-ray, mid-IR, optical color, and emission line ratio selection techniques. For an F-ratio threshold of F > 10, we find 16,266 AGN candidates brighter than I = 23.5 mag and a surface density of ∼1900 AGN deg–2. [ABSTRACT FROM AUTHOR]

Published

2014

20. GEMINI LONG-SLIT OBSERVATIONS OF LUMINOUS OBSCURED QUASARS: FURTHER EVIDENCE FOR AN UPPER LIMIT ON THE SIZE OF THE NARROW-LINE REGION.

Author

Hainline, Kevin N., Hickox, Ryan C., Greene, Jenny E., Myers, Adam D., Zakamska, Nadia L., Liu, Guilin, and Liu, Xin

Subjects

*QUASARS, *GALAXY formation, *GALACTIC evolution, *STELLAR luminosity function, *ASTROPHYSICS research

Abstract

We examine the spatial extent of the narrow-line regions (NLRs) of a sample of 30 luminous obscured quasars at 0.4 < z < 0.7 observed with spatially resolved Gemini-N GMOS long-slit spectroscopy. Using the [O III] λ5007 emission feature, we estimate the size of the NLR using a cosmology-independent measurement: the radius where the surface brightness falls to 10–15 erg s–1 cm–2 arcsec–2. We then explore the effects of atmospheric seeing on NLR size measurements and conclude that direct measurements of the NLR size from observed profiles are too large by 0.1-0.2 dex on average, as compared to measurements made to best-fit Sérsic or Voigt profiles convolved with the seeing. These data, which span a full order of magnitude in IR luminosity (log (L8 μm/erg s–1) = 44.4-45.4), also provide strong evidence that there is a flattening of the relationship between NLR size and active galactic nucleus luminosity at a seeing-corrected size of ∼7 kpc. The objects in this sample have high luminosities which place them in a previously under-explored portion of the size-luminosity relationship. These results support the existence of a maximal size of the NLR around luminous quasars; beyond this size, there is either not enough gas or the gas is over-ionized and does not produce enough [O III] λ5007 emission. [ABSTRACT FROM AUTHOR]

Published

2014

21. STAR FORMATION AND SUBSTRUCTURE IN GALAXY CLUSTERS.

Author

Cohen, Seth A., Hickox, Ryan C., Wegner, Gary A., Einasto, Maret, and Vennik, Jaan

Subjects

*STAR formation, *GALAXY clusters, *STELLAR structure, *ASTROPHYSICS

Abstract

We investigate the relationship between star formation (SF) and substructure in a sample of 107 nearby galaxy clusters using data from the Sloan Digital Sky Survey. Several past studies of individual galaxy clusters have suggested that cluster mergers enhance cluster SF, while others find no such relationship. The SF fraction in multi-component clusters (0.228 ± 0.007) is higher than that in single-component clusters (0.175 ± 0.016) for galaxies with . In both single- and multi-component clusters, the fraction of star-forming galaxies increases with clustercentric distance and decreases with local galaxy number density, and multi-component clusters show a higher SF fraction than single-component clusters at almost all clustercentric distances and local densities. Comparing the SF fraction in individual clusters to several statistical measures of substructure, we find weak, but in most cases significant at greater than 2σ, correlations between substructure and SF fraction. These results could indicate that cluster mergers may cause weak but significant SF enhancement in clusters, or unrelaxed clusters exhibit slightly stronger SF due to their less evolved states relative to relaxed clusters. [ABSTRACT FROM AUTHOR]

Published

2014

22. THE GALAXY OPTICAL LUMINOSITY FUNCTION FROM THE AGN AND GALAXY EVOLUTION SURVEY.

Author

Cool, Richard J., Eisenstein, Daniel J., Kochanek, Christopher S., Brown, Michael J. I., Caldwell, Nelson, Dey, Arjun, Forman, William R., Hickox, Ryan C., Jannuzi, Buell T., Jones, Christine, Moustakas, John, and Murray, Stephen S.

Subjects

GALACTIC redshift, GALACTIC evolution, LUMINOSITY, MASS (Physics), ASTROPHYSICS research

Abstract

We present the galaxy optical luminosity function for the redshift range 0.05 < z < 0.75 from the AGN and Galaxy Evolution Survey, a spectroscopic survey of 7.6 deg2 in the Boötes field of the NOAO Deep Wide-Field Survey. Our statistical sample is composed of 12,473 galaxies with known redshifts down to I = 20.4 (AB). Our results at low redshift are consistent with those from Sloan Digital Sky Survey; at higher redshift, we find strong evidence for evolution in the luminosity function, including differential evolution between blue and red galaxies. We find that the luminosity density evolves as (1 + z)(0.54 ± 0.64) for red galaxies and (1 + z)(1.64 ± 0.39) for blue galaxies. [ABSTRACT FROM AUTHOR]

Published

2012

23. SUZAKU X-RAY SPECTRA AND PULSE PROFILE VARIATIONS DURING THE SUPERORBITAL CYCLE OF LMC X-4.

Author

Hung, Li-Wei, Hickox, Ryan C., Boroson, Bram S., and Vrtilek, Saeqa D.

Published

2010

24. ACTIVE GALACTIC NUCLEI AND THE TRUNCATION OF STAR FORMATION IN K+A GALAXIES.

Author

Brown, Michael J. I., Moustakas, John, Caldwell, Nelson, Palamara, David, Cool, Richard J., Dey, Arjun, Hickox, Ryan C., Jannuzi, Buell T., Murray, Stephen S., and Zaritsky, Dennis

Published

2009

25. HOST GALAXIES, CLUSTERING, EDDINGTON RATIOS, AND EVOLUTION OF RADIO, X-RAY, AND INFRARED-SELECTED AGNs.

Author

Hickox, Ryan C., Jones, Christine, Forman, William R., Murray, Stephen S., Kochanek, Christopher S., Eisenstein, Daniel, Jannuzi, Buell T., Dey, Arjun, Brown, Michael J. I., Stern, Daniel, Eisenhardt, Peter R., Gorjian, Varoujan, Brodwin, Mark, Narayan, Ramesh, Cool, Richard J., Kenter, Almus, Caldwell, Nelson, and Anderson, Michael E.

Published

2009

26. Absolute Measurement of the Unresolved Cosmic X-Ray Background in the 0.5-8 keV Band with Chandra.

Author

Hickox, Ryan C. and Markevitch, Maxim

Published

2006

27. Origin of the Soft Excess in X-Ray Pulsars.

Author

Hickox, Ryan C., Narayan, Ramesh, and Kallman, Timothy R.

Published

2004