Active galactic nuclei: what’s in a name?

Active galactic nuclei (AGN) are energetic astrophysical sources powered by accretion onto supermassive black holes in galaxies, and present unique observational signatures that cover the full electromagnetic spectrum over more than twenty orders of magnitude in frequency. The rich phenomenology of AGN has resulted in a large number of different “flavours” in the literature that now comprise a complex and confusing AGN “zoo”. It is increasingly clear that these classifications are only partially related to intrinsic differences between AGN and primarily reflect variations in a relatively small number of astrophysical parameters as well the method by which each class of AGN is selected. Taken together, observations in different electromagnetic bands as well as variations over time provide complementary windows on the physics of different sub-structures in the AGN. In this review, we present an overview of AGN multi-wavelength properties with the aim of painting their “big picture” through observations in each electromagnetic band from radio to $$\gamma $$γ-rays as well as AGN variability. We address what we can learn from each observational method, the impact of selection effects, the physics behind the emission at each wavelength, and the potential for future studies. To conclude, we use these observations to piece together the basic architecture of AGN, discuss our current understanding of unification models, and highlight some open questions that present opportunities for future observational and theoretical progress.

[1]  G. Miniutti,et al.  Discovery of a relation between black hole mass and soft X-ray time lags in active galactic nuclei , 2011, 1201.0196.

[2]  J. Mould,et al.  Radiative transfer modelling of parsec-scale dusty warped discs , 2016, 1610.07247.

[3]  G. Richards,et al.  A POPULATION OF X-RAY WEAK QUASARS: PHL 1811 ANALOGS AT HIGH REDSHIFT , 2011, 1104.3861.

[4]  Christopher J. Conselice,et al.  THE EVOLUTION OF GALAXY NUMBER DENSITY AT z < 8 AND ITS IMPLICATIONS , 2016, 1607.03909.

[5]  M. Jarvis,et al.  Radio-quiet quasars in the VIDEO survey: evidence for AGN-powered radio emission at S1.4 GHz < 1 mJy , 2014, 1410.3892.

[6]  M. Cohen Gigahertz-Peaked Spectrum Radio Sources , 2003 .

[7]  P. Padovani The faint radio sky: radio astronomy becomes mainstream , 2016, The Astronomy and Astrophysics Review.

[8]  S. Baum,et al.  What are the gigahertz peaked-spectrum radio sources ? , 1991 .

[9]  A. Laor,et al.  Line-driven winds and the UV turnover in AGN accretion discs , 2013, 1312.3556.

[10]  D. Thompson,et al.  PHOTOMETRIC REDSHIFT AND CLASSIFICATION FOR THE XMM–COSMOS SOURCES , 2008, 0809.2098.

[11]  H. Falcke,et al.  Radio sources in low-luminosity active galactic nuclei IV. Radio luminosity function, importance of jet power, and radio properties of the complete Palomar sample , 2005, astro-ph/0502551.

[12]  Simon L. Morris,et al.  Comparisons of the Emission-Line and Continuum Properties of Broad Absorption Line and Normal Quasi-stellar Objects , 1991 .

[13]  M. Schirmer,et al.  The ‘Green Bean’ Galaxy SDSS J224024.1–092748: unravelling the emission signature of a quasar ionization echo , 2015, 1502.07754.

[14]  R. Cutri,et al.  An Unbiased Census of Active Galactic Nuclei in the Two Micron All Sky Survey , 2003, astro-ph/0310396.

[15]  Richard F. Mushotzky,et al.  X-ray spectra and time variability of active galactic nuclei , 1993 .

[16]  M. Gilfanov,et al.  X-ray emission from star-forming galaxies - II. Hot interstellar medium , 2012, 1205.3715.

[17]  E. Hatziminaoglou,et al.  An atlas of mid-infrared spectra of star-forming and active galaxies , 2011, 1101.4794.

[18]  The Mass Function of Active Black Holes in the Local Universe , 2007 .

[19]  J. Krolik,et al.  RADIATION-DRIVEN OUTFLOWS FROM AND RADIATIVE SUPPORT IN DUSTY TORI OF ACTIVE GALACTIC NUCLEI , 2015, 1511.00333.

[20]  P. Hewett,et al.  X-rays from the redshift 7.1 quasar ULAS J1120+0641 , 2013, 1311.1686.

[21]  P. Uttley,et al.  A global look at X-ray time lags in seyfert galaxies , 2016, 1605.02631.

[22]  A. Comastri,et al.  On the Lx – L6 μm ratio as a diagnostic for Compton-thick AGN , 2011, 1107.3777.

[23]  A. Akylas,et al.  Compton Thick AGN in the 70 Month Swift-BAT All-Sky Hard X-ray Survey: a Bayesian approach , 2016, 1607.08069.

[24]  W. Brandt,et al.  LONG-TERM X-RAY VARIABILITY OF TYPICAL ACTIVE GALACTIC NUCLEI IN THE DISTANT UNIVERSE , 2016, 1608.08224.

[25]  M. Paolillo,et al.  MEASURING X-RAY VARIABILITY IN FAINT/SPARSELY SAMPLED ACTIVE GALACTIC NUCLEI , 2012, 1202.3786.

[26]  J. Wang,et al.  On the Fraction of X-Ray-obscured Quasars in the Local Universe , 2006, astro-ph/0702701.

[27]  M. D’Onofrio,et al.  Fifty years of quasars : from early observations and ideas to future research , 2012 .

[28]  G. Miley,et al.  Infrared Seyferts: a new population of active galaxies? , 1984 .

[29]  E. Phinney,et al.  Ion-supported tori and the origin of radio jets , 1982, Nature.

[30]  Astrophysics,et al.  AKARI Detections of Hot Dust in Luminous Infrared Galaxies , 2011, 1103.2453.

[31]  D. Evans,et al.  An X-ray survey of the 2 Jy sample – I. Is there an accretion mode dichotomy in radio-loud AGN? , 2014, 1402.1770.

[32]  L. Hernandez-Garcia,et al.  X-ray spectral variability of Seyfert 2 galaxies , 2015, 1505.01166.

[33]  L. Ho,et al.  The Mass Function of Active Black Holes in the Local Universe , 2007, 0705.0020.

[34]  G. Zamorani,et al.  The VLA-COSMOS 3 GHz Large Project: Cosmic evolution of radio AGN and implications for radio- mode feedback since z 5 , 2017, 1705.07090.

[35]  T. Heckman,et al.  On the fundamental dichotomy in the local radio-AGN population , 2012, 1201.2397.

[36]  Robert P. Johnson,et al.  THE FIRST CATALOG OF ACTIVE GALACTIC NUCLEI DETECTED BY THE FERMI LARGE AREA TELESCOPE , 2010, 1002.0150.

[37]  Takeshi Miyaji,et al.  COSMOLOGICAL EVOLUTION OF THE HARD X-RAY AGN LUMINOSITY FUNCTION , 2004 .

[38]  M. Elvis,et al.  Ubiquitous Variability of X-Ray-absorbing Column Densities in Seyfert 2 Galaxies , 2001, astro-ph/0107510.

[39]  M. Menzel,et al.  OBSCURATION-DEPENDENT EVOLUTION OF ACTIVE GALACTIC NUCLEI , 2015, 1501.02805.

[40]  M. Guainazzi,et al.  Changing look: from Compton‐thick to Compton‐thin, or the rebirth of fossil active galactic nuclei , 2003 .

[41]  B. M. Peterson,et al.  Central Masses and Broad-Line Region Sizes of Active Galactic Nuclei. II. A Homogeneous Analysis of a Large Reverberation-Mapping Database , 2004, astro-ph/0407299.

[42]  J. Dunlop,et al.  The LBDS Hercules sample of mJy radio sources at 1.4 GHz - II. Redshift distribution, radio luminosity function, and the high-redshift cut-off , 2001, astro-ph/0107048.

[43]  M. Blanton,et al.  PRIMUS: THE DEPENDENCE OF AGN ACCRETION ON HOST STELLAR MASS AND COLOR , 2011, 1107.4368.

[44]  Yasuyuki T. Tanaka,et al.  THE THIRD CATALOG OF ACTIVE GALACTIC NUCLEI DETECTED BY THE FERMI LARGE AREA TELESCOPE , 2015, 1501.06054.

[45]  M. S. Oey,et al.  Atlas of quasar energy distributions , 1994 .

[46]  Loredana Bassani,et al.  Unabsorbed Seyfert 2 galaxies , 2002 .

[47]  E. Striani,et al.  FERMI LARGE AREA TELESCOPE FIRST SOURCE CATALOG , 2010 .

[48]  A. Celotti,et al.  The HST view of FR I radio galaxies: evidence for non-thermal nuclear sources , 1999, astro-ph/9907064.

[49]  Kevin Schawinski,et al.  Active galactic nuclei flicker: an observational estimate of the duration of black hole growth phases of ∼105 yr , 2015 .

[50]  Jean-Luc Starck,et al.  THE FERMI-LAT HIGH-LATITUDE SURVEY: SOURCE COUNT DISTRIBUTIONS AND THE ORIGIN OF THE EXTRAGALACTIC DIFFUSE BACKGROUND , 2010, 1003.0895.

[51]  J. Peacock,et al.  The statistics of radio emission from quasars , 1986 .

[52]  Ralf Bender,et al.  The Demography of massive dark objects in galaxy centers , 1997, astro-ph/9708072.

[53]  S. Veilleux,et al.  SPITZER QUASAR AND ULIRG EVOLUTION STUDY (QUEST). IV. COMPARISON OF 1 Jy ULTRALUMINOUS INFRARED GALAXIES WITH PALOMAR-GREEN QUASARS , 2009, 0905.1577.

[54]  Michael A. Nowak,et al.  Rossi X-Ray Timing Explorer Observation of Cygnus X-1. III. Implications for Compton Corona and Advection-dominated Accretion Flow Models , 1999 .

[55]  D. Walton,et al.  NuSTAR OBSERVATIONS OF THE COMPTON-THICK ACTIVE GALACTIC NUCLEUS AND ULTRALUMINOUS X-RAY SOURCE CANDIDATE IN NGC 5643 , 2015, 1509.03322.

[56]  F. A. Aharonian TeV gamma rays from BL Lac Objects due to synchrotron radiation of extremely high energy protons , 2000 .

[57]  G. Hasinger The X-ray background and AGNs , 2003, astro-ph/0310804.

[58]  M. Elitzur,et al.  ON THE 10 μm SILICATE FEATURE IN ACTIVE GALACTIC NUCLEI , 2009 .

[59]  R. Carswell,et al.  Absorption Lines in the Spectra of Quasistellar Objects , 1981 .

[60]  Alexander G. Gray,et al.  EFFICIENT PHOTOMETRIC SELECTION OF QUASARS FROM THE SLOAN DIGITAL SKY SURVEY. II. ∼1, 000, 000 QUASARS FROM DATA RELEASE 6 , 2004, The Astrophysical Journal Supplement Series.

[61]  R. Siebenmorgen,et al.  Discovery of 10 μm silicate emission in quasars : Evidence of the agn unification scheme , 2005, astro-ph/0504263.

[62]  R. Angione QSO historical light curves , 1973 .

[63]  G. Richards,et al.  THE MID-INFRARED CONTINUA OF SEYFERT GALAXIES , 2009, 0910.1614.

[64]  W. Brandt,et al.  NuSTAR J033202–2746.8: DIRECT CONSTRAINTS ON THE COMPTON REFLECTION IN A HEAVILY OBSCURED QUASAR AT z ≈ 2 , 2014, 1403.2491.

[65]  D. Elbaz,et al.  The XMM deep survey in the CDF-S - IV. Compton-thick AGN candidates , 2013 .

[66]  A. Merloni,et al.  Observational Appearance of Black Holes in X-Ray Binaries and AGN , 2014 .

[67]  Paul S. Smith,et al.  Candidate type II quasars at 2 < z < 4.3 in the Sloan Digital Sky Survey III , 2013, 1307.7289.

[68]  R. Nichol,et al.  The Ensemble Photometric Variability of ~25,000 Quasars in the Sloan Digital Sky Survey , 2003, astro-ph/0310336.

[69]  C. Megan Urry,et al.  Obscured Active Galactic Nuclei and the X-Ray, Optical, and Far-Infrared Number Counts of Active Galactic Nuclei in the GOODS Fields , 2004 .

[70]  C. Dermer,et al.  TIMING SIGNATURES OF THE INTERNAL-SHOCK MODEL FOR BLAZARS , 2010, 1001.1606.

[71]  C. Reynolds,et al.  TESTING THE PROPAGATING FLUCTUATIONS MODEL WITH A LONG, GLOBAL ACCRETION DISK SIMULATION , 2015, 1512.05350.

[72]  André A. Costa,et al.  J-PAS: The Javalambre-Physics of the Accelerated Universe Astrophysical Survey , 2014, 1403.5237.

[73]  G. Zamorani,et al.  Accreting supermassive black holes in the COSMOS field and the connection to their host galaxies , 2012, 1209.1640.

[74]  M. Paolillo,et al.  The XMM deep survey in the CDFS , 2016, Astronomy & Astrophysics.

[75]  D. Elbaz,et al.  HerMES: Far infrared properties of known AGN in the HerMES fields , 2010, 1005.2192.

[76]  E. al.,et al.  Multi-TeV Gamma-Ray Flares from Markarian 421 in 2000 and 2001 Observed with the Tibet Air Shower Array , 2003, astro-ph/0304241.

[77]  W. Duschl,et al.  The subarcsecond mid-infrared view of local active galactic nuclei – II. The mid-infrared–X-ray correlation , 2015, 1508.05065.

[78]  R. Zamanov,et al.  Average Quasar Spectra in the Context of Eigenvector 1 , 2002, astro-ph/0201362.

[79]  A. Myers,et al.  THE SDSS-III BARYON OSCILLATION SPECTROSCOPIC SURVEY: THE QUASAR LUMINOSITY FUNCTION FROM DATA RELEASE NINE , 2012, 1210.6389.

[80]  Determining Central Black Hole Masses in Distant Active Galaxies and Quasars. II. Improved Optical and UV Scaling Relationships , 2006, astro-ph/0601303.

[81]  G. Ghisellini The jet/disk connection in blazars , 2010, 1002.4619.

[82]  B. Trakhtenbrot,et al.  Bolometric luminosity black hole growth time and slim accretion discs in active galactic nuclei , 2013, 1311.4215.

[83]  M. Blanton,et al.  PRIMUS: THE RELATIONSHIP BETWEEN STAR FORMATION AND AGN ACCRETION , 2014, 1407.1975.

[84]  V. Smolčić THE RADIO AGN POPULATION DICHOTOMY: GREEN VALLEY SEYFERTS VERSUS RED SEQUENCE LOW-EXCITATION ACTIVE GALACTIC NUCLEI , 2009, 0905.2989.

[85]  W. Brandt,et al.  The X-Ray Spectral Properties of SCUBA Galaxies , 2005, astro-ph/0506608.

[86]  P. Hewett,et al.  Improved redshifts for SDSS quasar spectra , 2010, 1003.3017.

[87]  Harvard,et al.  IR-derived covering factors for a large sample of quasars from WISE-UKIDSS-SDSS , 2012, 1205.4543.

[88]  P. Ciliegi,et al.  The VLA-COSMOS 3 GHz Large Project: Multiwavelength counterparts and the composition of the faint radio population , 2017, 1703.09719.

[89]  Takamitsu Miyaji,et al.  Cosmological Evolution of the Hard X-Ray Active Galactic Nucleus Luminosity Function and the Origin of the Hard X-Ray Background , 2003, astro-ph/0308140.

[90]  Yue Shen,et al.  SPACE DENSITY OF OPTICALLY SELECTED TYPE 2 QUASARS , 2008, 0801.1115.

[91]  A. Lawrence,et al.  HOT-DUST-POOR QUASARS IN MID-INFRARED AND OPTICALLY SELECTED SAMPLES , 2010, 1011.0429.

[92]  R. Narayan,et al.  Hot Accretion Flows Around Black Holes , 2014, 1401.0586.

[93]  France,et al.  Spotting the misaligned outflows in NGC 1068 using X‐ray polarimetry , 2010, 1012.4652.

[94]  J. Baldwin,et al.  ERRATUM - CLASSIFICATION PARAMETERS FOR THE EMISSION-LINE SPECTRA OF EXTRAGALACTIC OBJECTS , 1981 .

[95]  R. Bender,et al.  Pan-STARRS1 variability of XMM-COSMOS AGN II. Physical correlations and power spectrum analysis , 2015, 1510.06737.

[96]  L. Storrie-Lombardi,et al.  THE SPITZER MID-INFRARED ACTIVE GALACTIC NUCLEUS SURVEY. I. OPTICAL AND NEAR-INFRARED SPECTROSCOPY OF OBSCURED CANDIDATES AND NORMAL ACTIVE GALACTIC NUCLEI SELECTED IN THE MID-INFRARED , 2013 .

[97]  Baltimore,et al.  Prevalence of X-Ray Variability in the Chandra Deep Field-South , 2004, astro-ph/0404418.

[98]  L. Rmus,et al.  MID-IR GALAXY CLASSIFICATION BASED ON SILICATE OBSCURATION AND PAH EQUIVALENT WIDTH , 2006 .

[99]  A. Fabian,et al.  Simultaneous X-ray/optical/UV snapshots of active galactic nuclei from XMM–Newton: spectral energy distributions for the reverberation mapped sample , 2008, 0810.3777.

[100]  I. Smail,et al.  THE X-RAY SPECTRAL PROPERTIES OF SCUBA GALAXIES , 2005 .

[101]  M. Schmidt,et al.  3C 273 : A Star-Like Object with Large Red-Shift , 1963, Nature.

[102]  E. Bullock,et al.  MODELING THE TIME VARIABILITY OF SDSS STRIPE 82 QUASARS AS A DAMPED RANDOM WALK , 2010, 1004.0276.

[103]  R. Antonucci,et al.  QUANTIFYING THE ANISOTROPY IN THE INFRARED EMISSION OF POWERFUL ACTIVE GALACTIC NUCLEI , 2011, 1105.0429.

[104]  D. Elbaz,et al.  Mid-infrared Luminous Quasars in the GOODS– Herschel Fields: A Large Population of Heavily Obscured, Compton-Thick Quasars at z ≈ 2 , 2015, 1504.03329.

[105]  P. Rosati,et al.  The sub-mJy radio sky in the Extended Chandra Deep Field-South: source population , 2013, 1310.1248.

[106]  J. Chiang,et al.  THE LARGE AREA TELESCOPE ON THE FERMI GAMMA-RAY SPACE TELESCOPE MISSION , 2009, 0902.1089.

[107]  J. Greene,et al.  A ∼50,000 M⊙ SOLAR MASS BLACK HOLE IN THE NUCLEUS OF RGG 118 , 2015, 1506.07531.

[108]  Rick Edelson,et al.  KEPLER OBSERVATIONS OF RAPID OPTICAL VARIABILITY IN ACTIVE GALACTIC NUCLEI , 2011, 1111.0672.

[109]  H. Netzer Revisiting the Unified Model of Active Galactic Nuclei , 2015, 1505.00811.

[110]  D. Schneider,et al.  THE CHANDRA DEEP FIELD-SOUTH SURVEY: 4 Ms SOURCE CATALOGS , 2011, 1105.5643.

[111]  Usa,et al.  Extreme X-ray spectral variability in the Seyfert 2 Galaxy NGC 1365 , 2005, astro-ph/0503351.

[112]  P. Ho,et al.  Resolved magnetic-field structure and variability near the event horizon of Sagittarius A* , 2015, Science.

[113]  P. Leslie Radio emission from normal galaxies , 1960 .

[114]  G. Richards,et al.  UNIFICATION OF LUMINOUS TYPE 1 QUASARS THROUGH C iv EMISSION , 2010, 1011.2282.

[115]  G. W. Pratt,et al.  The Hot And Energetic Universe , 2016 .

[116]  R. Assef,et al.  THE STRIKINGLY UNIFORM, HIGHLY TURBULENT INTERSTELLAR MEDIUM OF THE MOST LUMINOUS GALAXY IN THE UNIVERSE , 2015, 1511.04079.

[117]  M. J. Page,et al.  Combined long and short time-scale X-ray variability of NGC 4051 with RXTE and XMM-Newton , 2004 .

[118]  P. Hilfiker,et al.  [Long-term monitoring]. , 2001, Therapeutische Umschau. Revue therapeutique.

[119]  Mark Lacy,et al.  The radio luminosity function from the low-frequency 3CRR, 6CE and 7CRS complete samples , 2000, astro-ph/0010419.

[120]  J. Bock,et al.  The roles of star formation and AGN activity of IRS sources in the HerMES fields , 2013, 1306.5946.

[121]  S. Vaughan,et al.  X-ray variability of 104 active galactic nuclei - XMM-Newton power-spectrum density profiles , 2012, 1205.4255.

[122]  T. Budavari,et al.  Radio Continuum Surveys with Square Kilometre Array Pathfinders , 2012, Publications of the Astronomical Society of Australia.

[123]  P. Padovani The microjansky and nanojansky radio sky: source population and multiwavelength properties , 2010, 1009.6116.

[124]  D. Thompson,et al.  SEARCH FOR GAMMA-RAY EMISSION FROM X-RAY-SELECTED SEYFERT GALAXIES WITH FERMI-LAT , 2011, 1109.4678.

[125]  Edward J. Wollack,et al.  Wide-Field InfrarRed Survey Telescope-Astrophysics Focused Telescope Assets WFIRST-AFTA 2015 Report , 2015, 1503.03757.

[126]  K. Schawinski,et al.  THE CHANDRA COSMOS LEGACY SURVEY: OPTICAL/IR IDENTIFICATIONS , 2015, 1512.01105.

[127]  X. Koenig,et al.  WIDE-FIELD INFRARED SURVEY EXPLORER OBSERVATIONS OF THE EVOLUTION OF MASSIVE STAR-FORMING REGIONS , 2012 .

[128]  K. Schawinski,et al.  A NEW POPULATION OF COMPTON-THICK AGNs IDENTIFIED USING THE SPECTRAL CURVATURE ABOVE 10 keV , 2016, 1604.07825.

[129]  Stefi A. Baum,et al.  SPITZER IRS SPECTRA OF A LARGE SAMPLE OF SEYFERT GALAXIES: A VARIETY OF INFRARED SPECTRAL ENERGY DISTRIBUTIONS IN THE LOCAL ACTIVE GALACTIC NUCLEUS POPULATION , 2006 .

[130]  A. Filippenko,et al.  A search for «dwarf» Seyfert 1 nuclei. I: The initial data and results , 1985 .

[131]  Yunjin Kim,et al.  Nuclear Spectroscopic Telescope Array (NuSTAR) Mission , 2013, 2013 IEEE Aerospace Conference.

[132]  P. Lira,et al.  Active galactic nuclei at z ∼ 1.5 – I. Spectral energy distribution and accretion discs , 2014, 1410.8137.

[133]  A. Prakash,et al.  LEPTONIC AND HADRONIC MODELING OF FERMI-DETECTED BLAZARS , 2013, 1304.0605.

[134]  L. Kewley,et al.  The host galaxies and classification of active galactic nuclei , 2006, astro-ph/0605681.

[135]  S. Djorgovski,et al.  THE FAINT END OF THE QUASAR LUMINOSITY FUNCTION AT z ∼ 4: IMPLICATIONS FOR IONIZATION OF THE INTERGALACTIC MEDIUM AND COSMIC DOWNSIZING , 2009, 0912.2799.

[136]  K. Nandra,et al.  TRACING THE REVERBERATION LAG IN THE HARD STATE OF BLACK HOLE X-RAY BINARIES , 2015, 1510.02798.

[137]  D. Schneider,et al.  VARIABILITY-SELECTED LOW-LUMINOSITY ACTIVE GALACTIC NUCLEI IN THE 4 Ms CHANDRA DEEP FIELD-SOUTH , 2012, 1201.4391.

[138]  Riccardo Giacconi,et al.  History of X-ray telescopes and astronomy , 2009 .

[139]  K. Nandra,et al.  A Cutoff in the X-Ray Fluctuation Power Density Spectrum of the Seyfert 1 Galaxy NGC 3516 , 1998, astro-ph/9810481.

[140]  Aya Kubota,et al.  Modelling the behaviour of accretion flows in X-ray binaries , 2007, 0708.0148.

[141]  I. M. McHardy,et al.  Measuring the broad-band power spectra of active galactic nuclei with RXTE , 2002 .

[142]  V. Smolčić Radio continuum surveys and galaxy evolution: The AGN view , 2016, 1603.05687.

[143]  S. Barros,et al.  Accretion-induced variability links young stellar objects, white dwarfs, and black holes , 2015, Science Advances.

[144]  D. Elbaz,et al.  Reliable Identification of Compton-thick Quasars at z ≈ 2: Spitzer Mid-Infrared Spectroscopy of HDF-oMD49 , 2008, 0803.0636.

[145]  Brandon C. Kelly,et al.  ARE THE VARIATIONS IN QUASAR OPTICAL FLUX DRIVEN BY THERMAL FLUCTUATIONS? , 2009, 0903.5315.

[146]  Rashid Sunyaev,et al.  Black holes in binary systems. Observational appearance , 1973 .

[147]  S. Veilleux,et al.  On the relation of optical obscuration and X-ray absorption in Seyfert galaxies , 2015, 1511.05566.

[148]  Yiqing Liu,et al.  THE CORRELATIONS BETWEEN OPTICAL VARIABILITY AND PHYSICAL PARAMETERS OF QUASARS IN SDSS STRIPE 82 , 2012, Proceedings of the International Astronomical Union.

[149]  The X-ray luminosity-mass relation for local clusters of galaxies , 2006, astro-ph/0602324.

[150]  W. Freeman,et al.  Observing---and Imaging---Active Galactic Nuclei with the Event Horizon Telescope , 2016, 1607.03034.

[151]  C. Pichon,et al.  The Horizon-AGN Simulation: Morphological Diversity of Galaxies ,Promoted by AGN Feedback , 2016, 1606.03086.

[152]  R. Maiolino,et al.  Spectral decomposition of starbursts and active galactic nuclei in 5-8 μm Spitzer-IRS spectra of local ultraluminous infrared galaxies , 2008 .

[153]  B. Arsioli,et al.  Searching for γ-ray signature in WHSP blazars - Fermi-LAT detection of 150 excess signal in the 0.3−500 GeV band , 2016, 1609.08501.

[154]  Paolo Giommi,et al.  The Connection between X-Ray-- and Radio-selected BL Lacertae Objects , 1995 .

[155]  Carl J. Grillmair,et al.  THE FIRST HYPER-LUMINOUS INFRARED GALAXY DISCOVERED BY WISE , 2012, 1208.5517.

[156]  Marek Gierlinski,et al.  High-frequency X-ray variability as a mass estimator of stellar and supermassive black holes , 2007, 0710.1566.

[157]  S. Serjeant,et al.  Sloan Digital Sky Survey Quasars in the Spitzer Wide-Area Infrared Extragalactic Survey (SWIRE) ELAIS N1 Field: Properties and Spectral Energy Distributions , 2005 .

[158]  G. Richards,et al.  Mass Functions of the Active Black Holes in Distant Quasars from the Sloan Digital Sky Survey Data Release 3 , 2007, 0801.0243.

[159]  Ralf Bender,et al.  THE ASTROPHYSICAL JOURNAL Preprint typeset using L ATEX style emulateapj v. 10/09/06 THE M–σ AND M–L RELATIONS IN GALACTIC BULGES, AND DETERMINATIONS OF THEIR INTRINSIC SCATTER , 2008 .

[160]  G. Ghisellini,et al.  A jet model for the gamma-ray emitting blazar 3C 279 , 1992 .

[161]  G. Zamorani,et al.  Black hole growth and starburst activity at z = 0.6–4 in the Chandra Deep Field South. Host galaxies properties of obscured AGN , 2009, 0910.1007.

[162]  Nanbo Peng,et al.  SDSS QUASARS IN THE WISE PRELIMINARY DATA RELEASE AND QUASAR CANDIDATE SELECTION WITH OPTICAL/INFRARED COLORS , 2012, 1204.6197.

[163]  Simon J. Mutch,et al.  SEMI-ANALYTIC GALAXY EVOLUTION (SAGE): MODEL CALIBRATION AND BASIC RESULTS , 2016, 1601.04709.

[164]  A. Myers,et al.  QUASAR CLASSIFICATION USING COLOR AND VARIABILITY , 2015, 1508.04121.

[165]  H. Kuehr,et al.  A catalogue of extragalactic radio sources having flux densities greater than 1 Jy at 5 GHz. , 1982 .

[166]  F. Castander,et al.  The ALHAMBRA Project: A large area multi medium-band optical and NIR photometric survey , 2008, 0806.3021.

[167]  A. Marconi,et al.  The Relation between Black Hole Mass, Bulge Mass, and Near-Infrared Luminosity , 2003, astro-ph/0304274.

[168]  Observations of Ultraluminous Infrared Galaxies with the Infrared Spectrograph on the Spitzer Space Telescope , 2006, astro-ph/0610218.

[169]  Ž. Ivezić,et al.  ACTIVE GALACTIC NUCLEUS AND STARBURST RADIO EMISSION FROM OPTICALLY SELECTED QUASI-STELLAR OBJECTS , 2013, 1303.3448.

[170]  P. Giommi,et al.  A simplified view of blazars: the γ-ray case , 2013, 1302.4331.

[171]  I. Papadakis The scaling of the X-ray variability with black hole mass in active galactic nuclei , 2003, astro-ph/0311016.

[172]  Paul Torrey,et al.  FIRE-2 simulations: physics versus numerics in galaxy formation , 2017, Monthly Notices of the Royal Astronomical Society.

[173]  Hidehiro Kaneda,et al.  The next-generation infrared astronomy mission SPICA under the new framework , 2014, Astronomical Telescopes and Instrumentation.

[174]  Yu Feng,et al.  The origin of the most massive black holes at high-z: BlueTides and the next quasar frontier , 2016, 1606.08871.

[175]  B. Groves,et al.  Extended Silicate Dust Emission in Palomar-Green QSOs , 2008, 0801.4637.

[176]  Paul S. Smith,et al.  The Multiband Imaging Photometer for Spitzer (MIPS) , 2004 .

[177]  Frederic H. Chaffee,et al.  An objective classification scheme for QSO spectra , 1992 .

[178]  O. Fèvre,et al.  The VLA-COSMOS 3~GHz Large Project: AGN and host-galaxy properties out to z≲6 , 2017, 1703.09720.

[179]  R. Maiolino,et al.  Spectral decomposition of starbursts and AGNs in 5-8 micron Spitzer IRS spectra of local ULIRGs , 2008, 0801.4304.

[180]  M. Baes,et al.  3D radiative transfer modelling of the dusty tori around active galactic nuclei as a clumpy two-phase medium , 2012 .

[181]  A. Szalay,et al.  CANDELS/GOODS-S, CDFS, AND ECDFS: PHOTOMETRIC REDSHIFTS FOR NORMAL AND X-RAY-DETECTED GALAXIES , 2014, 1409.7119.

[182]  M. Blanton,et al.  PRIMUS: INFRARED AND X-RAY AGN SELECTION TECHNIQUES AT 0.2 < z < 1.2 , 2013, 1302.2920.

[183]  B. Arsioli,et al.  2WHSP: A multi-frequency selected catalogue of high energy and very high energy γ-ray blazars and blazar candidates , 2017 .

[184]  H. Yamaoka,et al.  Near-infrared colours of active galactic nuclei , 2009, 0910.3804.

[185]  P. Lira,et al.  Active galactic nuclei at z ̃ 1.5 - II. Black hole mass estimation by means of broad emission lines , 2016, 1603.03437.

[186]  J. Riley,et al.  The Morphology of Extragalactic Radio Sources of High and Low Luminosity , 1974 .

[187]  D. Dultzin,et al.  C IV λ1549 as an Eigenvector 1 Parameter for Active Galactic Nuclei , 2007, 0705.1895.

[188]  Garching,et al.  Properties of dusty tori in active galactic nuclei – II. Type 2 AGN , 2009, 0907.2389.

[189]  D. Meier Grand unification of AGN and the accretion and spin paradigms , 1999, astro-ph/9908283.

[190]  V. Hubeny,et al.  Non-LTE Models and Theoretical Spectra of Accretion Disks in Active Galactic Nuclei , 1997, astro-ph/9705085.

[191]  M. C. Bentz,et al.  SPACE TELESCOPE AND OPTICAL REVERBERATION MAPPING PROJECT. II. SWIFT AND HST REVERBERATION MAPPING OF THE ACCRETION DISK OF NGC 5548 , 2015, 1501.05951.

[192]  C. Baugh,et al.  Grand unification of AGN activity in the ΛCDM cosmology , 2009, 0911.1128.

[193]  J. Ostriker,et al.  FEEDBACK FROM CENTRAL BLACK HOLES IN ELLIPTICAL GALAXIES: TWO-DIMENSIONAL MODELS COMPARED TO ONE-DIMENSIONAL MODELS , 2010, 1007.3505.

[194]  J. Trump,et al.  Identifying Luminous AGN in Deep Surveys: Revised IRAC Selection Criteria , 2012 .

[195]  E. L. Wright,et al.  The Infrared Array Camera (IRAC) Shallow Survey , 2004 .

[196]  M. Gierliński,et al.  A periodicity of ∼1 hour in X-ray emission from the active galaxy RE J1034+396 , 2008, Nature.

[197]  M. de Naurois,et al.  Ground-based detectors in very-high-energy gamma-ray astronomy , 2015, 1511.00463.

[198]  B. Arsioli,et al.  2WHSP: A multi-frequency selected catalogue of high energy and very high energy γ-ray blazars and blazar candidates , 2016, 1609.05808.

[199]  H. Rottgering,et al.  Cosmic downsizing of powerful radio galaxies to low radio luminosities , 2015, 1507.00341.

[200]  Anthony H. Gonzalez,et al.  LOW-RESOLUTION SPECTRAL TEMPLATES FOR ACTIVE GALACTIC NUCLEI AND GALAXIES FROM 0.03 TO 30 μm , 2010 .

[201]  R. Maiolino,et al.  X-ray absorption by broad-line region clouds in Mrk 766 , 2010, 1008.5067.

[202]  P. Best,et al.  Evolution of the radio-loud galaxy population , 2008, 0809.2076.

[203]  G. Richards,et al.  Dust-free quasars in the early Universe , 2010, Nature.

[204]  K. Mannheim The Proton Blazar , 1993, astro-ph/9302006.

[205]  A. Fabian,et al.  Discovery of an ∼2-h high-frequency X-ray QPO and iron Kα reverberation in the active galaxy MS 2254.9−3712 , 2014, 1411.0684.

[206]  R. Nichol,et al.  Stellar masses and star formation histories for 105 galaxies from the Sloan Digital Sky Survey , 2002, astro-ph/0204055.

[207]  J. Austermann,et al.  Spitzer IRAC infrared colours of submillimetre-bright galaxies , 2008, 0806.2158.

[208]  Durham,et al.  DEEP SILICATE ABSORPTION FEATURES IN COMPTON-THICK ACTIVE GALACTIC NUCLEI PREDOMINANTLY ARISE DUE TO DUST IN THE HOST GALAXY , 2012, 1205.1800.

[209]  M. Umemura,et al.  Sub-parsec-scale dynamics of a dusty gas disc exposed to anisotropic AGN radiation with frequency-dependent radiative transfer , 2016, 1604.03372.

[210]  Arjun Dey,et al.  A Significant Population of Very Luminous Dust-Obscured Galaxies at Redshift z ~ 2 , 2008, 0801.1860.

[211]  Peter J. Serlemitsos,et al.  Complete x-ray sample of the high-latitude (Vertical BarbVertical Bar>20/sup 0/) sky from HEAO 1 A-2: Log N-log S and luminosity functions , 1982 .

[212]  Guenther Hasinger,et al.  The synthesis of the cosmic X-ray background in the Chandra and XMM-Newton era , 2007 .

[213]  E. Wright,et al.  The Spitzer Space Telescope Mission , 2004, astro-ph/0406223.

[214]  Gabriele Giovannini,et al.  Compact radio cores in radio-quiet active galactic nuclei , 2016 .

[215]  D. W. Eedman,et al.  THE DETECTION OF SILICATE EMISSION FROM QUASARS AT 10 AND 18 MICRONS , 2005 .

[216]  A. Hopkins,et al.  GAMA/WiggleZ: the 1.4 GHz radio luminosity functions of high- and low-excitation radio galaxies and their redshift evolution to z = 0.75 , 2016, 1604.04332.

[217]  S. Oh,et al.  The infrared astronomical mission AKARI , 2007, 0708.1796.

[218]  R. Becker,et al.  The FIRST-2MASS Red Quasar Survey , 2007, 0706.3222.

[219]  U. Durham,et al.  Consistency of the black hole mass determination in AGN from the reverberation and the X-ray excess variance method , 2006, astro-ph/0606621.

[220]  Richard G. McMahon,et al.  The variability of optically selected quasars , 1994 .

[221]  R. Antonucci,et al.  THERMAL EMISSION AS A TEST FOR HIDDEN NUCLEI IN NEARBY RADIO GALAXIES , 2002, astro-ph/0207385.

[222]  A. Comastri,et al.  X-ray imaging of the ionisation cones in NGC 5252 , 2010, 1003.1665.

[223]  Bradley M. Peterson,et al.  The Radius-Luminosity Relationship for Active Galactic Nuclei: The Effect of Host-Galaxy Starlight on Luminosity Measurements , 2006, 0812.2283.

[224]  Yue Shen The Mass of Quasars , 2013, 1302.2643.

[225]  Riverside,et al.  Optical Spectroscopy and X-Ray Detections of a Sample of Quasars and Active Galactic Nuclei Selected in the Mid-Infrared from Two Spitzer Space Telescope Wide-Area Surveys , 2006, astro-ph/0609594.

[226]  B. Boroson,et al.  REVISITING WITH CHANDRA THE SCALING RELATIONS OF THE X-RAY EMISSION COMPONENTS (BINARIES, NUCLEI, AND HOT GAS) OF EARLY-TYPE GALAXIES , 2010, 1011.2529.

[227]  W. Baade,et al.  On the Identification of Radio Sources. , 1954 .

[228]  The X-ray nuclei of intermediate-redshift radio sources , 2006, astro-ph/0603090.

[229]  A. Myers,et al.  THINK OUTSIDE THE COLOR BOX: PROBABILISTIC TARGET SELECTION AND THE SDSS-XDQSO QUASAR TARGETING CATALOG , 2010, 1011.6392.

[230]  J. Baldwin Luminosity Indicators in the Spectra of Quasi-Stellar Objects , 1977 .

[231]  G. Risaliti,et al.  THE TIGHT RELATION BETWEEN X-RAY AND ULTRAVIOLET LUMINOSITY OF QUASARS , 2016, 1602.01090.

[232]  Joern Wilms,et al.  The Hot and Energetic Universe: A White Paper presenting the science theme motivating the Athena+ mission , 2013 .

[233]  Hubble Space Telescope STIS Ultraviolet Spectral Evidence of Outflow in Extreme Narrow-Line Seyfert 1 Galaxies. II. Modeling and Interpretation* ** , 2004, astro-ph/0402452.

[234]  V. K. Dhar,et al.  Validation of a new background discrimination method for the TACTIC TeV γ-ray telescope with Markarian 421 data , 2014, 1410.2260.

[235]  Chris Simpson,et al.  The luminosity dependence of the type 1 active galactic nucleus fraction , 2005 .

[236]  A. Szalay,et al.  Spectral Classification of Quasars in the Sloan Digital Sky Survey: Eigenspectra, Redshift, and Luminosity Effects , 2004, astro-ph/0408578.

[237]  D. Elbaz,et al.  The XMM deep survey in the CDFS IV. Candidate Compton-thick AGN , 2013, 1303.5556.

[238]  A. Myers,et al.  Extremely red quasars from SDSS, BOSS and WISE: classification of optical spectra , 2014, 1405.1047.

[239]  I. W. A. Browne,et al.  Relativistic beaming and quasar statistics , 1982 .

[240]  E. L. Wright,et al.  THE SPITZER–WISE SURVEY OF THE ECLIPTIC POLES , 2011 .

[241]  C. Done Observational characteristics of accretion onto black holes , 2010, 1008.2287.

[242]  A. Siemiginowska,et al.  High-Redshift Radio-quiet Quasars: Exploring the Parameter Space of Accretion Models. II. Patchy Corona Model , 2004, astro-ph/0410206.

[243]  D. Alexander,et al.  What drives the growth of black holes , 2011, 1112.1949.

[244]  S. Vernetto Gamma Ray Astronomy with LHAASO , 2016 .

[245]  Giuseppina Fabbiano,et al.  Populations of X-Ray Sources in Galaxies , 2006 .

[246]  H. Netzer,et al.  Massive thin accretion discs – I. Calculated spectra , 1989 .

[247]  M. Paolillo,et al.  Ensemble X-ray variability of active galactic nuclei. II. Excess variance and updated structure function , 2016, 1607.02629.

[248]  A. Szalay,et al.  THE SLOAN DIGITAL SKY SURVEY QUASAR CATALOG. V. SEVENTH DATA RELEASE , 2010, 1004.1167.

[249]  E. Hatziminaoglou,et al.  The near-to-mid infrared spectrum of quasars , 2016, 1605.04867.

[250]  Ž. Ivezić,et al.  AGN Dusty Tori. II. Observational Implications of Clumpiness , 2008, 0806.0512.

[251]  G. Zamorani,et al.  The cosmic growth of the active black hole population at 1 < z < 2 in zCOSMOS, VVDS and SDSS , 2014, 1412.0754.

[252]  E. Agol,et al.  Non-LTE Models and Theoretical Spectra of Accretion Disks in Active Galactic Nuclei. IV. Effects of Compton Scattering and Metal Opacities , 2001, astro-ph/0105507.

[253]  B. Weiner,et al.  SUBMILLIMETER FOLLOW-UP OF WISE-SELECTED HYPERLUMINOUS GALAXIES , 2012, 1208.5518.

[254]  M. Elitzur,et al.  Disc Outflows and High-Luminosity True Type 2 AGN , 2016, 1603.04909.

[255]  D. Thompson,et al.  The Imprint of the Extragalactic Background Light in the Gamma-Ray Spectra of Blazars , 2012, Science.

[256]  P. Hopkins,et al.  A Cosmological Framework for the Co-Evolution of Quasars, Supermassive Black Holes, and Elliptical Galaxies. I. Galaxy Mergers and Quasar Activity , 2007, 0706.1243.

[257]  K. Grainge,et al.  Time correlation between the radio and gamma-ray activity in blazars and the production site of the gamma-ray emission , 2014, 1408.6264.

[258]  S. White,et al.  The EAGLE project: Simulating the evolution and assembly of galaxies and their environments , 2014, 1407.7040.

[259]  M. A. Garrett,et al.  Deep, wide-field, global VLBI observations of the Hubble deep field north (HDF-N) and flanking fields (HFF) , 2013, 1301.1253.

[260]  Astronomy,et al.  On the 10-micron silicate feature in Active Galactic Nuclei , 2009, 0910.5521.

[261]  M. SubbaRao,et al.  Spectroscopic Target Selection in the Sloan Digital Sky Survey: The Quasar Sample , 2002, astro-ph/0202251.

[262]  C. Gaskell,et al.  Lognormal X-Ray Flux Variations in an Extreme Narrow-Line Seyfert 1 Galaxy , 2004 .

[263]  A. Lawrence,et al.  MISALIGNED DISKS AS OBSCURERS IN ACTIVE GALAXIES , 2010 .

[264]  C. Tadhunter Radio AGN in the local universe: unification, triggering and evolution , 2016, 1605.08773.

[265]  J. Chiang,et al.  Resolving the Extragalactic γ-Ray Background above 50 GeV with the Fermi Large Area Telescope. , 2015, Physical review letters.

[266]  H. Falcke,et al.  The jet-disk symbiosis. II. Interpreting the Radio/UV correlations in quasars , 1994, astro-ph/9411100.

[267]  A. Merloni,et al.  Evolution of active galactic nuclei , 2012, 1204.4265.

[268]  vZeljko Ivezi'c,et al.  A UNIFIED CATALOG OF RADIO OBJECTS DETECTED BY NVSS, FIRST, WENSS, GB6, AND SDSS , 2008, 0806.0650.

[269]  M. G. Watson,et al.  Low-frequency divergent X-ray variability in the Seyfert galaxy NGC4051 , 1987, Nature.

[270]  D. Walton,et al.  WEAK HARD X-RAY EMISSION FROM BROAD ABSORPTION LINE QUASARS: EVIDENCE FOR INTRINSIC X-RAY WEAKNESS , 2014, 1408.3633.

[271]  A. Coil,et al.  The evolution of the X-ray luminosity functions of unabsorbed and absorbed AGNs out to z ~ 5 , 2015, 1503.01120.

[272]  Adam D. Myers,et al.  BAYESIAN HIGH-REDSHIFT QUASAR CLASSIFICATION FROM OPTICAL AND MID-IR PHOTOMETRY , 2015, 1507.07788.

[273]  NOAO,et al.  ACCEPTED FOR PUBLICATION IN THE ASTROPHYSICAL JOURNAL Preprint typeset using LATEX style emulateapj v. 10/09/06 A LARGE POPULATION OF MID-INFRARED SELECTED, OBSCURED ACTIVE GALAXIES IN THE BOÖTES FIELD , 2022 .

[274]  P. Giommi,et al.  A simplified view of blazars: clearing the fog around long‐standing selection effects , 2011, 1110.4706.

[275]  M. Malkan,et al.  Fitting improved accretion disk models to the multiwavelength continua of quasars and active galactic nuclei , 1989 .

[276]  S. Bianchi,et al.  Simultaneous X-ray and optical observations of true type 2 Seyfert galaxies , 2012, 1209.0274.

[277]  Ronald A. Remillard,et al.  X-Ray Properties of Black-Hole Binaries , 2006, astro-ph/0606352.

[278]  What controls the C iv line profile in active galactic nuclei , 2004, astro-ph/0409196.

[279]  T. Heckman An optical and radio survey of the nuclei of bright galaxies. Activity in normal galactic nuclei. , 1980 .

[280]  C. O’Dea The Compact Steep‐Spectrum and Gigahertz Peaked‐Spectrum Radio Sources , 1998 .

[281]  E. Sadler GPS/CSS radio sources and their relation to other AGN , 2015, 1512.01851.

[282]  Miroslava Dessauges-Zavadsky,et al.  Spectral classification of emission-line galaxies , 2000 .

[283]  J. Trump,et al.  Hard X-Ray-selected AGNs in Low-mass Galaxies from the NuSTAR Serendipitous Survey , 2017, 1701.08768.

[284]  B. Trakhtenbrot,et al.  HOT-DUST CLOUDS WITH PURE-GRAPHITE COMPOSITION AROUND TYPE-I ACTIVE GALACTIC NUCLEI , 2011, 1105.3198.

[285]  A. Lawrence The relative frequency of broad-lined and narrow-lined active galactic nuclei: implications for unified schemes , 1991 .

[286]  S. Pellegrini,et al.  THE NUCLEAR X-RAY EMISSION OF NEARBY EARLY-TYPE GALAXIES , 2010, 1005.2344.

[287]  Chandra-SDSS Normal and Star-Forming Galaxies. I. X-Ray Source Properties of Galaxies Detected by the Chandra X-Ray Observatory in SDSS DR2 , 2004, astro-ph/0410669.

[288]  Ž. Ivezić,et al.  A New Method to Separate Star-forming from AGN Galaxies at Intermediate Redshift: The Submillijansky Radio Population in the VLA-COSMOS Survey , 2008, 0803.0997.

[289]  Revisiting the infrared spectra of active galactic nuclei with a new torus emission model , 2005, astro-ph/0511428.

[290]  J. Trump,et al.  ACTIVE GALACTIC NUCLEUS X-RAY VARIABILITY IN THE XMM-COSMOS SURVEY , 2013, 1312.2264.

[291]  I. Georgantopoulos,et al.  X-ray variability in a deep, flux-limited sample of QSOs , 1999 .

[292]  Brandon C. Kelly,et al.  DISCLOSING THE RADIO LOUDNESS DISTRIBUTION DICHOTOMY IN QUASARS: AN UNBIASED MONTE CARLO APPROACH APPLIED TO THE SDSS–FIRST QUASAR SAMPLE , 2012, 1209.1099.

[293]  P. Padovani,et al.  UNIFIED SCHEMES FOR RADIO-LOUD ACTIVE GALACTIC NUCLEI , 1995, astro-ph/9506063.

[294]  S. Satyapal,et al.  OBSCURED AGNs IN BULGELESS HOSTS DISCOVERED BY WISE: THE CASE STUDY OF SDSS J1224+5555 , 2016, 1606.01268.

[295]  Danzengluobu,et al.  LONG-TERM MONITORING OF THE TeV EMISSION FROM Mrk 421 WITH THE ARGO-YBJ EXPERIMENT , 2011, 1106.0896.

[296]  Isao Okamoto,et al.  Electromagnetic Extraction of Energy from Kerr Black Holes , 2005, astro-ph/0506302.

[297]  J. Wall The quasars from the Parkes 2700-MHz survey , 1975 .

[298]  A. Goulding,et al.  THE INTRINSIC EDDINGTON RATIO DISTRIBUTION OF ACTIVE GALACTIC NUCLEI IN STAR-FORMING GALAXIES FROM THE SLOAN DIGITAL SKY SURVEY , 2016, 1605.01739.

[299]  J. L. Donley,et al.  IDENTIFYING LUMINOUS ACTIVE GALACTIC NUCLEI IN DEEP SURVEYS: REVISED IRAC SELECTION CRITERIA , 2012, 1201.3899.

[300]  E. Churazov,et al.  On the X-ray time-lags in the black hole candidates , 2001 .

[301]  G. Miniutti,et al.  Broad line emission from iron K- and L-shell transitions in the active galaxy 1H 0707-495 , 2009, Nature.

[302]  L. Ho,et al.  Star formation in quasar hosts and the origin of radio emission in radio-quiet quasars , 2015, 1511.00013.

[303]  Giuseppina Fabbiano,et al.  Rapid Compton-thick/Compton-thin Transitions in the Seyfert 2 Galaxy NGC 1365 , 2005 .

[304]  P. Hewett,et al.  The Frequency and Radio Properties of Broad Absorption Line Quasars , 2003, astro-ph/0301191.

[305]  H. Winkler,et al.  Testing thermal reprocessing in active galactic nuclei accretion discs , 2007, 0706.1464.

[306]  R. Bower,et al.  The link between galaxy and black hole growth in the eagle simulation. , 2017, 1701.01122.

[307]  D. L. Bertsch,et al.  Calibration of the Energetic Gamma-Ray Experiment Telescope (EGRET) for the Compton Gamma-Ray Observatory , 1993 .

[308]  S. Coenders,et al.  Connecting blazars with ultrahigh-energy cosmic rays and astrophysical neutrinos , 2016, 1611.06022.

[309]  Walter Kieran Gear,et al.  Models for high-frequency radio outbursts in extragalactic sources, with application to the early 1983 millimeter-to-infrared flare of 3C 273. , 1985 .

[310]  W. Brandt,et al.  Tracing the accretion history of supermassive black holes through X-ray variability: results from the Chandra Deep Field-South , 2017, 1707.05332.

[311]  J. Peacock,et al.  The bimodal radio luminosity function of quasars. , 1990 .

[312]  Chicago,et al.  Colors of 2625 Quasars at 0 < z < 5 Measured in the Sloan Digital Sky Survey Photometric System , 2000, astro-ph/0012449.

[313]  Magnetically Arrested Disk : an Energetically Efficient Accretion Flow , 2003, astro-ph/0305029.

[314]  Technology of China,et al.  AN ALMA SURVEY OF SUBMILLIMETER GALAXIES IN THE EXTENDED CHANDRA DEEP FIELD-SOUTH: THE AGN FRACTION AND X-RAY PROPERTIES OF SUBMILLIMETER GALAXIES , 2013, 1310.6364.

[315]  Isaac Shlosman,et al.  The AGN-obscuring Torus: The End of the “Doughnut” Paradigm? , 2006 .

[316]  K. Schawinski,et al.  Testing the completeness of the SDSS colour selection for ultramassive, slowly spinning black holes , 2016, 1609.00376.

[318]  K. Schawinski,et al.  Understanding the build-up of supermassive black holes and galaxies at the heyday of the Universe , 2013, 1306.2328.

[319]  Bradley M. Peterson Variability of Active Galactic Nuclei , 2001 .

[320]  Ray P. Norris,et al.  Unveiling the origin of the radio emission in radio-quiet quasars , 2016, 1603.07136.

[321]  A. Esin Heating and Cooling of Hot Accretion Flows by Non Local Radiation , 1997 .

[322]  J. Silverman,et al.  Host galaxies and large-scale structures of active galactic nuclei , 2015, Proceedings of the International Astronomical Union.

[323]  N. Ross,et al.  A systematic search for changing-look quasars in SDSS , 2015, 1509.08393.

[324]  J. Wilms,et al.  Absorption Of X-rays In The Interstellar Medium , 2000, astro-ph/0008425.

[325]  MID-INFRARED GALAXY CLASSIFICATION BASED ON SILICATE OBSCURATION AND PAH EQUIVALENT WIDTH , 2006, astro-ph/0611918.

[326]  Martin J. Hardcastle Kiloparsec-Scale AGN Jets , 2015 .

[327]  Princeton,et al.  Energy Extraction from Spinning Black Holes via Relativistic Jets , 2013, 1303.3004.

[328]  N. Masetti,et al.  The INTEGRAL/IBIS AGN catalogue - I. X-ray absorption properties versus optical classification , 2012, 1207.4882.

[329]  Y. Lyubarskii,et al.  Flicker noise in accretion discs , 1997 .

[330]  H. Rottgering,et al.  The LOFAR window on star-forming galaxies and AGNs - curved radio SEDs and IR-radio correlation at 0 , 2017, 1704.06268.

[331]  Usa,et al.  Black hole masses from power density spectra: determinations and consequences , 2000, astro-ph/0009200.

[332]  Frazer N. Owen,et al.  A 20cm VLA Survey of Abell Clusters of Galaxies VI. Radio/Optical Luminosity Functions , 1996 .

[333]  S. Dye,et al.  The evolution of faint AGN between z ' 1 and z ' 5 from the COMBO-17 survey , 2003 .

[334]  A. Cimatti,et al.  A Herschel view of the far-infrared properties of submillimetre galaxies , 2012, 1202.0761.

[335]  H. F. Astrophysics,et al.  Chandra and XMM-Newton Observations of a Sample of Low-Redshift FR I and FR II Radio Galaxy Nuclei , 2005, astro-ph/0512600.

[336]  A. Dey,et al.  THE SPECTRAL ENERGY DISTRIBUTIONS AND INFRARED LUMINOSITIES OF z ≈ 2 DUST-OBSCURED GALAXIES FROM Herschel AND Spitzer , 2012, 1203.3199.

[337]  Buell T. Jannuzi,et al.  MID-INFRARED SELECTION OF ACTIVE GALACTIC NUCLEI WITH THE WIDE-FIELD INFRARED SURVEY EXPLORER. II. PROPERTIES OF WISE-SELECTED ACTIVE GALACTIC NUCLEI IN THE NDWFS BOÖTES FIELD , 2012, 1209.6055.

[338]  J. Chiang,et al.  GeV OBSERVATIONS OF STAR-FORMING GALAXIES WITH THE FERMI LARGE AREA TELESCOPE , 2012, The Astrophysical Journal.

[339]  The X-Ray-to-Optical Properties of Optically Selected Active Galaxies over Wide Luminosity and Redshift Ranges , 2006, astro-ph/0602407.

[340]  Ling Zhu,et al.  CALIBRATING THE CORRELATION BETWEEN BLACK HOLE MASS AND X-RAY VARIABILITY AMPLITUDE: X-RAY ONLY BLACK HOLE MASS ESTIMATES FOR ACTIVE GALACTIC NUCLEI AND ULTRA-LUMINOUS X-RAY SOURCES , 2009, 0912.2636.

[341]  G. Miley,et al.  Warm IRAS sources. I. A. Catalogue of AGN candidates from the point source catalog , 1987 .

[342]  H. Netzer,et al.  The Effects of Disc Winds on the Spectrum and Black Hole Growth Rate of Active Galactic Nuclei , 2012, 1207.7074.

[343]  Peter D. Barthel,et al.  Is every quasar beamed , 1989 .

[344]  Ž. Ivezić,et al.  A CLOSER VIEW OF THE RADIO–FIR CORRELATION: DISENTANGLING THE CONTRIBUTIONS OF STAR FORMATION AND ACTIVE GALACTIC NUCLEUS ACTIVITY , 2010, 1010.0435.

[345]  G. Piano,et al.  First AGILE catalog of high-confidence gamma-ray sources , 2009, 0902.2959.

[346]  Brandon C. Kelly,et al.  FLEXIBLE AND SCALABLE METHODS FOR QUANTIFYING STOCHASTIC VARIABILITY IN THE ERA OF MASSIVE TIME-DOMAIN ASTRONOMICAL DATA SETS , 2014, 1402.5978.

[347]  O. Fèvre,et al.  THE COSMOS2015 CATALOG: EXPLORING THE 1 < z < 6 UNIVERSE WITH HALF A MILLION GALAXIES , 2016, 1604.02350.

[348]  K. Kellermann The road to quasars , 2014, Proceedings of the International Astronomical Union.

[349]  Charlottesville,et al.  THE VLA SURVEY OF CHANDRA DEEP FIELD SOUTH. V. EVOLUTION AND LUMINOSITY FUNCTIONS OF SUB-MILLIJANSKY RADIO SOURCES AND THE ISSUE OF RADIO EMISSION IN RADIO-QUIET ACTIVE GALACTIC NUCLEI , 2011, 1107.2759.

[350]  S. Charlot,et al.  Nuclear activity versus star formation: emission-line diagnostics at ultraviolet and optical wavelengths , 2015, 1511.08217.

[351]  G. Richards,et al.  An Observational Determination of the Bolometric Quasar Luminosity Function , 2006, astro-ph/0605678.

[352]  A. Merloni,et al.  A synthesis model for AGN evolution: supermassive black holes growth and feedback modes , 2008, 0805.2499.

[353]  M. Longair,et al.  Bright radio sources at 178 MHz: flux densities, optical identifications and the cosmological evolution of powerful radio galaxies , 1983 .

[354]  ACTIVE GALACTIC NUCLEUS AND STARBURST RADIO EMISSION FROM OPTICALLY SELECTED QUASI-STELLAR OBJECTS , 2013 .

[355]  J. Trump,et al.  HOT-DUST-POOR TYPE 1 ACTIVE GALACTIC NUCLEI IN THE COSMOS SURVEY , 2010, 1009.3276.

[356]  Jonathan C. McDowell,et al.  James Webb Space Telescope , 2004 .

[357]  J. Dunlop,et al.  The redshift cut-off in the luminosity function of radio galaxies and quasars. , 1990 .

[358]  J. Greene,et al.  MID-INFRARED COLORS OF DWARF GALAXIES: YOUNG STARBURSTS MIMICKING ACTIVE GALACTIC NUCLEI , 2016, 1609.06721.

[359]  Ž. Ivezić,et al.  The Two-Component Radio Luminosity Function of QSOs: Star Formation and AGN , 2011, 1107.3551.

[360]  B. Trakhtenbrot,et al.  Black Hole Growth to z = 2 - I: Improved Virial Methods for Measuring M_BH and L/L_Edd , 2012, 1209.1096.

[361]  Alexander G. Gray,et al.  Efficient photometric selection of quasars from the sloan digital sky survey: 100,000 z < 3 quasars from data release one , 2004 .

[362]  M. Rowan-Robinson,et al.  High-luminosity IRAS galaxies. II - Optical spectroscopy, modelling of starburst regions and comparison with structure , 1989 .

[363]  G. Hasinger,et al.  eROSITA science book: mapping the structure of the energetic universe , 2012, 1209.3114.

[364]  The jet-disk symbiosis. 1. Radio to X-ray emission models for quasars , 1994, astro-ph/9411096.

[365]  L. Kewley,et al.  The Chandra Deep Field-South: Optical Spectroscopy. I. , 2003, astro-ph/0312324.

[366]  S. Serjeant,et al.  Properties of dusty tori in active galactic nuclei – I. The case of SWIRE/SDSS quasars , 2008, 0802.2458.

[367]  P. Hewett,et al.  Heavily reddened quasars at z ∼ 2 in the UKIDSS Large Area Survey: a transitional phase in AGN evolution , 2012, 1203.5530.

[368]  R. Pello,et al.  Quasar Candidate Multicolor Selection Technique: a different approach , 2000 .

[369]  B. Magnelli,et al.  Tracing the cosmic growth of supermassive black holes to z ∼ 3 with Herschel , 2014, 1401.4503.

[370]  Dominic J. Benford,et al.  Explanatory Supplement to the WISE All-Sky Data Release Products , 2012, WISE 2012.

[371]  Martin G. Cohen,et al.  THE WIDE-FIELD INFRARED SURVEY EXPLORER (WISE): MISSION DESCRIPTION AND INITIAL ON-ORBIT PERFORMANCE , 2010, 1008.0031.

[372]  A. C. Fabian,et al.  Relativistic iron K X-ray reverberation in NGC 4151 , 2011, 1112.1717.

[373]  Andreas Burkert,et al.  Cosmological simulations of black hole growth: AGN luminosities and downsizing , 2013, 1308.0333.

[374]  R. D. Baldi,et al.  Spectro-photometric properties of the bulk of the radio-loud AGN population , 2010, 1005.3223.

[375]  C. K. Seyfert Nuclear Emission in Spiral Nebulae , 1941 .

[376]  R. Assef,et al.  HALF OF THE MOST LUMINOUS QUASARS MAY BE OBSCURED: INVESTIGATING THE NATURE OF WISE-SELECTED HOT DUST-OBSCURED GALAXIES , 2014, 1408.1092.

[377]  S. G. Sergeev,et al.  Lag-Luminosity Relationship for Interband Lags between Variations in B, V, R, and I Bands in Active Galactic Nuclei , 2005 .

[378]  G. Neugebauer,et al.  Ultraluminous infrared galaxies and the origin of quasars , 1988 .

[379]  University of Crete,et al.  Black hole mass estimation from X-ray variability measurements in active galactic nuclei , 2004 .

[380]  Ucsd,et al.  The variability plane of accreting compact objects , 2007, 0706.2959.

[381]  A. Myers,et al.  Quasar probabilities and redshifts from WISE mid-IR through GALEX UV photometry , 2015, 1507.02884.

[382]  C. Kochanek,et al.  QUASAR VARIABILITY IN THE MID-INFRARED , 2015, 1509.02467.

[383]  Technion,et al.  Correlated X-ray/optical variability in the quasar MR 2251−178 , 2008, 0807.2451.

[384]  P. Hewett,et al.  Heavily reddened type 1 quasars at z > 2 – I. Evidence for significant obscured black hole growth at the highest quasar luminosities , 2015, 1501.00815.

[385]  Stuart Lynn,et al.  THE HISTORY AND ENVIRONMENT OF A FADED QUASAR: HUBBLE SPACE TELESCOPE OBSERVATIONS OF HANNY'S VOORWERP AND IC 2497 , 2012, 1206.3797.

[386]  University of Leicester,et al.  On characterizing the variability properties of X-ray light curves from active galaxies , 2003 .

[387]  J. Chiang,et al.  2FHL: THE SECOND CATALOG OF HARD FERMI-LAT SOURCES , 2015, 1503.02664.

[388]  C. K. Seyfert Nuclear Emission in Spiral Nebulae. , 1943 .

[389]  Z. Ivezic,et al.  Dust Emission from Active Galactic Nuclei , 2002 .

[390]  J. R. Houck,et al.  The Infrared Spectrograph (IRS) on the Spitzer Space Telescope , 2004, astro-ph/0406167.

[391]  O. University,et al.  XBootes: An X-Ray Survey of the NDWFS Bootes Field. I. Overview and Initial Results , 2005, astro-ph/0504084.

[392]  N. Gehrels,et al.  KSwAGS: A SWIFT X-RAY AND UV SURVEY OF THE KEPLER FIELD. I. , 2015, 1508.06289.

[393]  H. Rix,et al.  The James Webb Space Telescope , 2006, astro-ph/0606175.

[394]  Michael E. Anderson,et al.  HOST GALAXIES, CLUSTERING, EDDINGTON RATIOS, AND EVOLUTION OF RADIO, X-RAY, AND INFRARED-SELECTED AGNs , 2009, 0901.4121.

[395]  et al,et al.  Optical and Radio Properties of Extragalactic Sources Observed by the FIRST Survey and the Sloan Digital Sky Survey , 2002, astro-ph/0202408.

[396]  C. Kochanek,et al.  A CONNECTION BETWEEN OBSCURATION AND STAR FORMATION IN LUMINOUS QUASARS , 2015, 1501.04959.

[397]  G. Wilson,et al.  Obscured and unobscured active galactic nuclei in the Spitzer Space Telescope First Look Survey , 2004 .

[398]  P. Roche,et al.  A mid-infrared spectroscopic atlas of local active galactic nuclei on sub-arcsecond resolution using GTC/CanariCam , 2015, 1510.02631.

[399]  T. Dwelly,et al.  Swift monitoring of NGC 5548: X-ray reprocessing and short-term UV/optical variability , 2014, 1407.6361.

[400]  R. Musgrave,et al.  Long-term outcome and patterns of failure in patients with advanced head and neck cancer , 2011, Radiation oncology.

[401]  Yue Shen,et al.  THE DEMOGRAPHICS OF BROAD-LINE QUASARS IN THE MASS–LUMINOSITY PLANE. I. TESTING FWHM-BASED VIRIAL BLACK HOLE MASSES , 2011, 1107.4372.

[402]  D. Walton,et al.  THE NuSTAR VIEW OF NEARBY COMPTON-THICK ACTIVE GALACTIC NUCLEI: THE CASES OF NGC 424, NGC 1320, AND IC 2560 , 2014, 1408.5414.

[403]  P. Murdin Active Galactic Nucleus , 2000 .

[404]  M. Richmond,et al.  SPITZER SPACE TELESCOPE MEASUREMENTS OF DUST REVERBERATION LAGS IN THE SEYFERT 1 GALAXY NGC 6418 , 2015, 1502.01977.

[405]  D. Padgett,et al.  THE MOST LUMINOUS GALAXIES DISCOVERED BY WISE , 2014, 1410.1751.

[406]  J. Brinchmann,et al.  Present-Day Growth of Black Holes and Bulges: The Sloan Digital Sky Survey Perspective , 2004, astro-ph/0406218.

[407]  Paolo Giommi,et al.  A simplified view of blazars: contribution to the X-ray and γ-ray extragalactic backgrounds , 2015, 1504.01978.

[408]  A. Kimball,et al.  HIGH-VELOCITY BIPOLAR MOLECULAR EMISSION FROM AN AGN TORUS , 2016, 1608.02210.

[409]  M. Strauss,et al.  Spectroscopic identification of type 2 quasars at z < 1 in SDSS-III/BOSS , 2016, 1606.04976.

[410]  K. Denney ARE OUTFLOWS BIASING SINGLE-EPOCH C iv BLACK HOLE MASS ESTIMATES? , 2012 .

[411]  K. Schawinski,et al.  SPATIALLY RESOLVED SPECTRA OF THE “TEACUP” ACTIVE GALACTIC NUCLEUS: TRACING THE HISTORY OF A DYING QUASAR , 2014, 1407.1729.

[412]  K. Schawinski,et al.  THE 31 DEG2 RELEASE OF THE STRIPE 82 X-RAY SURVEY: THE POINT SOURCE CATALOG , 2015, 1510.00852.

[413]  E. Hatziminaoglou,et al.  A COMPLETE CENSUS OF SILICATE FEATURES IN THE MID-INFRARED SPECTRA OF ACTIVE GALAXIES , 2015, 1502.05823.

[414]  Gabriele Giovannini,et al.  Compact radio cores in radio-quiet active galactic nuclei , 2016, 1603.07140.

[415]  L. Miller,et al.  A semi-empirical simulation of the extragalactic radio continuum sky for next generation radio telescopes , 2008, 0805.3413.

[416]  S. Lilly,et al.  OPTICAL VARIABILITY OF AGNs IN THE PTF/iPTF SURVEY , 2016, 1611.03082.

[417]  R. M. Curado da Silva,et al.  XIPE: the X-ray imaging polarimetry explorer , 2013, 1309.6995.

[418]  V. Springel,et al.  Simulating galaxy formation with black hole driven thermal and kinetic feedback , 2016, 1607.03486.

[419]  D. Osterbrock Seyfert galaxies with weak broad H alpha emission lines , 1981 .

[420]  Julian H. Krolik,et al.  Infrared spectra of obscuring dust tori around active galactic nuclei. I - Calculational method and basic trends , 1992 .

[421]  A. Goulding,et al.  BLACK HOLE VARIABILITY AND THE STAR FORMATION–ACTIVE GALACTIC NUCLEUS CONNECTION: DO ALL STAR-FORMING GALAXIES HOST AN ACTIVE GALACTIC NUCLEUS? , 2013, 1306.3218.

[422]  H. Rottgering,et al.  Spectroscopy of Ultra-steep-Spectrum Radio Sources , 2000, astro-ph/0012065.

[423]  D. Osterbrock,et al.  The spectra of narrow-line Seyfert 1 galaxies , 1985 .

[424]  W. Brandt,et al.  A New Compton-thick AGN in Our Cosmic Backyard: Unveiling the Buried Nucleus in NGC 1448 with NuSTAR , 2017, 1701.00497.

[425]  J. Miller,et al.  Spectropolarimetry and the nature of NGC 1068 , 1985 .

[426]  Ian M. McHardy,et al.  The flux-dependent amplitude of broadband noise variability in X-ray binaries and active galaxies , 2001 .

[427]  G. Zamorani,et al.  The incidence of obscuration in active galactic nuclei , 2013, 1311.1305.

[428]  W. Brandt,et al.  Cosmic X-ray surveys of distant active galaxies , 2015, 1501.01982.

[429]  J. Prochaska,et al.  A high-velocity narrow absorption line outflow in the quasar J212329.46 - 005052.9 , 2010, 1008.3728.

[430]  P. Gandhi,et al.  THE SUBARCSECOND MID-INFRARED VIEW OF LOCAL ACTIVE GALACTIC NUCLEI. III. POLAR DUST EMISSION , 2016, 1603.02710.

[431]  K. Schawinski,et al.  NuSTAR UNVEILS A HEAVILY OBSCURED LOW-LUMINOSITY ACTIVE GALACTIC NUCLEUS IN THE LUMINOUS INFRARED GALAXY NGC 6286 , 2016, 1601.05800.

[432]  R. M. Curado da Silva,et al.  XIPE: the X-ray imaging polarimetry explorer , 2013, Astronomical Telescopes + Instrumentation.

[433]  Usa,et al.  An optical spectroscopic survey of the 3CR sample of radio galaxies with z<0.3. II. Spectroscopic classes and accretion modes in radio-loud AGN , 2009, 0911.0536.

[434]  Julian H. Krolik,et al.  Molecular tori in Seyfert galaxies - Feeding the monster and hiding it , 1988 .

[435]  F. Harrison,et al.  NGC 1068: No change in the mid-IR torus structure despite X-ray variability , 2016, 1610.03076.

[436]  D. Williams,et al.  THE EXTRAGALACTIC BACKGROUND LIGHT, THE HUBBLE CONSTANT, AND ANOMALIES: CONCLUSIONS FROM 20 YEARS OF TeV GAMMA-RAY OBSERVATIONS , 2015, 1502.04166.

[437]  P. Best,et al.  The relation between morphology, accretion modes and environmental factors in local radio AGN , 2013, 1301.1526.

[438]  William W. Zhang,et al.  THE NUCLEAR SPECTROSCOPIC TELESCOPE ARRAY (NuSTAR) HIGH-ENERGY X-RAY MISSION , 2013, Astronomical Telescopes and Instrumentation.

[439]  P. Giommi,et al.  A simplified view of blazars: the very high energy γ-ray vision , 2014, 1410.0497.

[440]  A radio census of nuclear activity in nearby galaxies , 2006, astro-ph/0601080.

[441]  S. Kaspi,et al.  Super- and sub-Eddington accreting massive black holes: a comparison of slim and thin accretion discs through study of the spectral energy distribution , 2016, 1601.07177.

[442]  Robert Antonucci,et al.  Unified models for active galactic nuclei and quasars , 1993 .

[443]  M. Tavani,et al.  The AGILE Mission , 2003, 0807.4254.

[444]  L. Pozzetti,et al.  Panchromatic spectral energy distributions of Herschel sources , 2013, 1301.4496.

[445]  N. A. Walton,et al.  Quasar candidates selection in the Virtual Observatory era , 2008, 0805.0156.

[446]  Bradley M. Peterson,et al.  Correlated Long-Term Optical and X-Ray Variations in NGC 5548 , 2003, astro-ph/0301216.

[447]  K. Schawinski,et al.  The Hot and Energetic Universe: The formation and growth of the earliest supermassive black holes , 2013, 1306.2325.

[448]  P. Padovani On the two main classes of active galactic nuclei , 2017, Nature Astronomy.

[449]  T. J. Turner,et al.  ASCA observations of Seyfert 1 galaxies: I. Data Analysis, Imaging and Timing , 1996 .

[450]  M. D’Onofrio,et al.  Fifty Years of Quasars , 2012 .

[451]  D. Elbaz,et al.  GOODS-Herschel: radio-excess signature of hidden AGN activity in distant star-forming galaxies , 2012, 1210.2521.

[452]  H. Lehto A Model for 1/F-TYPE Variability in Active Galactic Nuclei , 1989 .

[453]  M. J. Hardcastle,et al.  Hot and cold gas accretion and feedback in radio-loud active galaxies , 2007 .

[454]  K. Schawinski,et al.  The SAURON project - XVI. On the sources of ionization for the gas in elliptical and lenticular galaxies , 2009, 0912.0275.

[455]  G. Miley The structure of extended extragalactic radio sources , 1980 .

[456]  Ann Hornschemeier,et al.  THE 4 Ms CHANDRA DEEP FIELD-SOUTH NUMBER COUNTS APPORTIONED BY SOURCE CLASS: PERVASIVE ACTIVE GALACTIC NUCLEI AND THE ASCENT OF NORMAL GALAXIES , 2012, 1204.1977.

[457]  J. Trump,et al.  ACTIVE GALACTIC NUCLEUS X-RAY VARIABILITY IN THE XMM-COSMOS SURVEY , 2014 .

[458]  C. Kochanek,et al.  The Mid-Infrared Properties of X-Ray Sources , 2006, 0803.0357.

[459]  M. Schoeller,et al.  The central dusty torus in the active nucleus of NGC 1068 , 2004, Nature.

[460]  S. Allen,et al.  The relation between accretion rate and jet power in X-ray luminous elliptical galaxies , 2006, astro-ph/0602549.

[461]  A. Merloni Observing Supermassive Black Holes Across Cosmic Time: From Phenomenology to Physics , 2015, 1505.04940.

[462]  G. Longo,et al.  Automated physical classification in the SDSS DR10. A catalogue of candidate quasars , 2015, 1504.03857.

[463]  Roger D. Blandford,et al.  On the fate of gas accreting at a low rate on to a black hole , 1998, astro-ph/9809083.

[464]  A. Tchekhovskoy Launching of Active Galactic Nuclei Jets , 2015 .

[465]  Va,et al.  Radio faint AGN: a tale of two populations , 2015, 1506.06554.

[466]  A. Myers,et al.  The Sloan Digital Sky Survey Quasar Catalog: Twelfth data release , 2016, 1608.06483.

[467]  G. Richards,et al.  C iv emission-line properties and systematic trends in quasar black hole mass estimates , 2016, 1606.02726.

[468]  A. Szalay,et al.  The Sloan Digital Sky Survey Quasar Survey: Quasar Luminosity Function from Data Release 3 , 2006, astro-ph/0601434.

[469]  Observatoire de la Cote d'Azur,et al.  Resolving the complex structure of the dust torus in the active nucleus of the Circinus galaxy , 2007, 0709.0209.

[470]  Dan Maoz,et al.  The Murmur of the Sleeping Black Hole: Detection of Nuclear Ultraviolet Variability in LINER Galaxies , 2005, astro-ph/0502347.

[471]  G. Rieke,et al.  Dust-deficient Palomar-Green Quasars and the Diversity of AGN Intrinsic IR Emission , 2016, 1612.06857.

[472]  Paul S. Smith,et al.  9.7 μm Silicate Features in Active Galactic Nuclei: New Insights into Unification Models , 2006, astro-ph/0608645.

[473]  R. Maiolino,et al.  The Hot and Energetic Universe: Astrophysics of feedback in local AGN , 2013, 1306.2330.

[474]  P. Lira,et al.  Twelve years of X-ray and optical variability in the Seyfert galaxy NGC 4051 , 2009, 0912.0544.

[475]  M. Longair,et al.  Optical spectra of 3CR radio galaxies. , 1979 .

[476]  R. Blandford,et al.  Hydromagnetic flows from accretion discs and the production of radio jets , 1982 .

[477]  K. Bechtol,et al.  THE ORIGIN OF THE EXTRAGALACTIC GAMMA-RAY BACKGROUND AND IMPLICATIONS FOR DARK MATTER ANNIHILATION , 2015, 1501.05301.

[478]  S. Satyapal,et al.  DISCOVERY OF A POPULATION OF BULGELESS GALAXIES WITH EXTREMELY RED MID-IR COLORS: OBSCURED AGN ACTIVITY IN THE LOW-MASS REGIME? , 2014, 1401.5483.

[479]  S. Maddox,et al.  -ATLAS/GAMA: a difference between star-formation rates in strong-line and weak-line radio galaxies , 2012 .

[480]  A. Treves,et al.  BASIC ELEMENTS OF THE THEORY OF ACCRETION , 1988 .

[481]  A. Merloni,et al.  DETAILED SHAPE AND EVOLUTIONARY BEHAVIOR OF THE X-RAY LUMINOSITY FUNCTION OF ACTIVE GALACTIC NUCLEI , 2015, 1503.00056.

[482]  C. Dullemond,et al.  Clumpy tori around active galactic nuclei , 2005, astro-ph/0501570.

[483]  P. Giommi,et al.  THE SPECTRAL ENERGY DISTRIBUTION OF FERMI BRIGHT BLAZARS , 2009, The Astrophysical Journal.

[484]  A. Comastri Compton-Thick AGN: The Dark Side of the X-Ray Background , 2004, astro-ph/0403693.

[485]  D. M. Alexander,et al.  COLOR–MAGNITUDE RELATIONS OF ACTIVE AND NON-ACTIVE GALAXIES IN THE CHANDRA DEEP FIELDS: HIGH-REDSHIFT CONSTRAINTS AND STELLAR-MASS SELECTION EFFECTS , 2010, 1007.1453.

[486]  A. Ramos,et al.  X-RAY ABSORPTION, NUCLEAR INFRARED EMISSION, AND DUST COVERING FACTORS OF AGNs: TESTING UNIFICATION SCHEMES , 2016, 1601.04439.

[487]  P. Lira,et al.  The dust covering factor in active galactic nuclei , 2016, 1602.06954.

[488]  J. Malzac The spectral energy distribution of compact jets powered by internal shocks , 2014, 1406.2208.

[489]  P. Uttley,et al.  Investigating a fluctuating-accretion model for the spectral-timing properties of accreting black hole systems , 2006 .

[490]  Bradley M. Peterson,et al.  REVERBERATION MAPPING OF ACTIVE GALACTIC NUCLEI , 1993 .

[491]  J. Chiang,et al.  THE SPECTRUM OF ISOTROPIC DIFFUSE GAMMA-RAY EMISSION BETWEEN 100 MeV AND 820 GeV , 2014, The Astrophysical Journal.

[492]  L. Kewley,et al.  Theoretical Modeling of Starburst Galaxies , 2001, astro-ph/0106324.

[493]  William B. Sparks,et al.  The Mid-Infrared Emission of M87 , 2007, 0704.1156.

[494]  H. Rix,et al.  MEASURING QUASAR VARIABILITY WITH Pan-STARRS1 AND SDSS , 2014, 1407.0716.

[495]  Laura Brenneman,et al.  The Hot and Energetic Universe: The close environments of supermassive black holes , 2013 .

[496]  A. Franceschini,et al.  Smooth and clumpy dust distributions in AGN: a direct comparison of two commonly explored infrared emission models , 2012, 1207.2668.

[497]  C. Lonsdale,et al.  Deep VLA imaging of twelve extended 3CR quasars , 1994 .

[498]  James J. Condon,et al.  Radio Emission from Normal Galaxies , 1992 .

[499]  D. Walton,et al.  NuSTAR UNVEILS A COMPTON-THICK TYPE 2 QUASAR IN MrK 34 , 2014, 1407.1844.

[500]  Donald W. Sweeney,et al.  LSST Science Book, Version 2.0 , 2009, 0912.0201.

[501]  P. Gondoin,et al.  XMM-Newton observatory. I. The spacecraft and operations , 2001 .

[502]  Technion,et al.  A pilot study of the radio-emitting AGN population: the emerging new class of FR0 radio-galaxies , 2015, 1502.00427.

[503]  Richard F. Mushotzky X-ray spectra and time variability of active galactic nuclei , 1984 .

[504]  R. Warwick,et al.  The variability of X-ray emission from active galaxies. , 1981 .

[505]  A. Hopkins,et al.  Radio Observations of the Hubble Deep Field South region: I. Survey Description and Initial Results , 2005, astro-ph/0505217.

[506]  Robert E. Wilson,et al.  BLACK HOLES IN BINARY SYSTEMS , 1973 .

[507]  R. Nichol,et al.  Radio galaxies in the 2SLAQ Luminous Red Galaxy Survey - I: The evolution of low-power radio galaxies to z ~ 0.7 , 2006, astro-ph/0612019.

[508]  D. Elbaz,et al.  GOODS-HERSCHEL: IMPACT OF ACTIVE GALACTIC NUCLEI AND STAR FORMATION ACTIVITY ON INFRARED SPECTRAL ENERGY DISTRIBUTIONS AT HIGH REDSHIFT , 2012, The Astrophysical Journal.

[509]  P. Padovani,et al.  Star formation properties of sub-mJy radio sources , 2015, 1508.01905.

[510]  E. Flesch The Half Million Quasars (HMQ) Catalogue , 2015, Publications of the Astronomical Society of Australia.

[511]  Johns Hopkins University,et al.  Candidate Type II Quasars from the Sloan Digital Sky Survey. I. Selection and Optical Properties of a Sample at 0.3 < Z < 0.83 , 2003, astro-ph/0309551.

[512]  R. Neri,et al.  ALMA RESOLVES THE TORUS OF NGC 1068: CONTINUUM AND MOLECULAR LINE EMISSION , 2016, 1604.00205.

[513]  Zeljko Ivezic,et al.  A sample of radio-loud active galactic nuclei in the Sloan Digital Sky Survey , 2005 .

[514]  Y. Pei The Luminosity Function of Quasars , 1995 .

[515]  The rest-frame optical colours of 99 000 sloan digital sky survey galaxies , 2006, astro-ph/0606355.

[516]  A. Hopkins,et al.  A NEW INFRARED COLOR CRITERION FOR THE SELECTION OF 0 < z < 7 AGNs: APPLICATION TO DEEP FIELDS AND IMPLICATIONS FOR JWST SURVEYS , 2012, 1205.4764.

[517]  A. K. Tickoo,et al.  TeV observations of Mrk 421 with the TACTIC γ-ray telescope during 2006-8 , 2010 .

[518]  D. J. Saikia,et al.  EMU: Evolutionary Map of the Universe , 2011, Publications of the Astronomical Society of Australia.

[519]  Ž. Ivezić,et al.  THE TWO-COMPONENT RADIO LUMINOSITY FUNCTION OF QUASI-STELLAR OBJECTS: STAR FORMATION AND ACTIVE GALACTIC NUCLEUS , 2011 .

[520]  M. Im,et al.  PHYSICAL PROPERTIES OF LUMINOUS DUST-POOR QUASARS , 2013, 1310.3034.

[521]  Tum,et al.  Extreme blazars as counterparts of IceCube astrophysical neutrinos , 2016, 1601.06550.

[522]  R. Morganti,et al.  The nature of the optical–radio correlations for powerful radio galaxies , 1998, astro-ph/9807238.

[523]  S. Schulze,et al.  Galaxy gas as obscurer: I. GRBs x-ray galaxies and find a N_H ~ M* relation , 2016, 1610.09379.

[524]  Ramesh Narayan,et al.  Advection-dominated Accretion: A Self-similar Solution , 1994 .

[525]  B. Weiner,et al.  TRACING THE EVOLUTION OF ACTIVE GALACTIC NUCLEI HOST GALAXIES OVER THE LAST 9 Gyr OF COSMIC TIME , 2013, 1310.8298.

[526]  University of Cambridge,et al.  The VLT Survey Telescope ATLAS , 2015, 1502.05432.

[527]  N. Grogin,et al.  OBSCURED GOODS ACTIVE GALACTIC NUCLEI AND THEIR HOST GALAXIES AT z < 1.25: THE SLOW BLACK HOLE GROWTH PHASE , 2011, 1104.2619.

[528]  Timothy M. Heckman,et al.  The host galaxies of active galactic nuclei , 2003 .

[529]  R. J. Assef,et al.  THE MID-IR- AND X-RAY-SELECTED QSO LUMINOSITY FUNCTION , 2010, 1001.4529.

[530]  R. Meijerink,et al.  MULTI-PHASE NATURE OF A RADIATION-DRIVEN FOUNTAIN WITH NUCLEAR STARBURST IN A LOW-MASS ACTIVE GALACTIC NUCLEUS , 2016, 1608.06995.

[531]  Jose Flix,et al.  Observations of Markarian 421 with the MAGIC Telescope , 2006 .

[532]  Takamitsu Miyaji,et al.  TOWARD THE STANDARD POPULATION SYNTHESIS MODEL OF THE X-RAY BACKGROUND: EVOLUTION OF X-RAY LUMINOSITY AND ABSORPTION FUNCTIONS OF ACTIVE GALACTIC NUCLEI INCLUDING COMPTON-THICK POPULATIONS , 2014 .

[533]  J. Manners,et al.  The X‐ray variability of high‐redshift QSOs , 2001, astro-ph/0110461.

[534]  M. Brotherton,et al.  Rehabilitating C iv-based black hole mass estimates in quasars , 2013, 1306.3521.

[535]  A. Esin Heating and Cooling of Hot Accretion Flows by Nonlocal Radiation , 1997, astro-ph/9701039.

[536]  M. Longair,et al.  On the interpretation of radio source counts , 1966 .

[537]  Marat Gilfanov,et al.  Soft state of Cygnus X‐1: stable disc and unstable corona , 2001 .

[538]  Richard G. McMahon,et al.  A luminous quasar at a redshift of z = 7.085 , 2011, Nature.

[539]  D. Thompson,et al.  3FHL: The Third Catalog of Hard Fermi-LAT Sources , 2017, 1702.00664.

[540]  D. Thompson,et al.  COSMOS PHOTOMETRIC REDSHIFTS WITH 30-BANDS FOR 2-deg2 , 2008, 0809.2101.

[541]  P. Marziani,et al.  Phenomenology of Broad Emission Lines in Active Galactic Nuclei , 2000 .

[542]  S. Maddox,et al.  Herschel-ATLAS: The connection between star formation and AGN activity in radio-loud and radio-quiet active galaxies , 2015 .

[543]  M. C. Weisskopf,et al.  An Overview of the Performance and Scientific Results from the Chandra X‐Ray Observatory , 2001, astro-ph/0110308.

[544]  E. L. Wright,et al.  Mid-Infrared Selection of Brown Dwarfs and High-Redshift Quasars , 2006, astro-ph/0608603.

[545]  P. Charlot,et al.  INTEGRAL observations of the blazar Mrk 421 in outburst Results of a multi-wavelength campaign , 2008, 0805.2577.

[546]  The Relationship between x-ray variability amplitude and black hole mass in active galactic nuclei , 2005, astro-ph/0501471.

[547]  R. Laing,et al.  Jet reorientation in AGN : two winged radio galaxies , 2001 .

[548]  M. Munich,et al.  Long-term variability of AGN at hard X-rays , 2013, 1311.4164.

[549]  S. Bouallègue,et al.  A New Method , 2021, Black Power and the American Myth.

[550]  G. Richards,et al.  Correcting C iv-Based Virial Black Hole Masses , 2016, 1610.08977.

[551]  S. Bianchi,et al.  CAIXA: a catalogue of AGN in the XMM-Newton archive - III. Excess variance analysis , 2011, 1112.2744.

[552]  M. Klis,et al.  An exact analytic treatment of propagating mass accretion rate fluctuations in X-ray binaries , 2013, 1306.3823.

[553]  R. Sunyaev,et al.  X-ray emission from star-forming galaxies – I. High-mass X-ray binaries , 2011, 1105.4610.

[554]  P. Ciliegi,et al.  The HELLAS2XMM Survey. VII. The Hard X-Ray Luminosity Function of AGNs up to z = 4: More Absorbed AGNs at Low Luminosities and High Redshifts , 2005, astro-ph/0509081.

[555]  R. Barvainis,et al.  Hot Dust and the Near-Infrared Bump in the Continuum Spectra of Quasars and Active Galactic Nuclei , 1987 .

[556]  Harvard,et al.  Efficient Generation of Jets from Magnetically Arrested Accretion on a Rapidly Spinning Black Hole , 2011, 1108.0412.

[557]  THE CHANDRA DEEP FIELD-SOUTH SURVEY: 7 MS SOURCE CATALOGS , 2016, 1611.03501.

[558]  A. Edge,et al.  The X-ray brightest clusters of galaxies from the Massive Cluster Survey , 2010, 1004.4683.

[559]  W. Sparks,et al.  An optical spectroscopic survey of the 3CR sample of radio galaxies with z < 0.3. I. Presentation of the data ⋆ , 2009, 0901.1764.

[560]  D. Evans,et al.  The active nuclei of z < 1.0 3CRR radio sources , 2009, 0904.1323.

[561]  T. Boroson,et al.  The Emission-Line Properties of Low-Redshift Quasi-stellar Objects , 1992 .

[562]  L. Ho,et al.  The diversity of quasars unified by accretion and orientation , 2014, Nature.

[563]  F. Franca,et al.  Novel calibrations of virial black hole mass estimators in active galaxies based on X-ray luminosity and optical/near-infrared emission lines , 2016, 1610.03490.

[564]  Ralf Bender,et al.  THE SLOPE OF THE BLACK HOLE MASS VERSUS VELOCITY DISPERSION CORRELATION , 2002, astro-ph/0203468.

[565]  Jonathan E. Grindlay,et al.  Advection-dominated Accretion Model of Sagittarius A*: Evidence for a Black Hole at the Galactic Center , 1997, astro-ph/9706112.

[566]  D. Stern,et al.  Using the Bright Ultrahard XMM-Newton survey to define an IR selection of luminous AGN based on WISE colours , 2012, 1208.2530.

[567]  P. Uttley,et al.  Active galactic nuclei as scaled-up Galactic black holes , 2006, Nature.

[568]  V. Narayanan,et al.  Color Separation of Galaxy Types in the Sloan Digital Sky Survey Imaging Data , 2001, astro-ph/0107201.

[569]  H. Rix,et al.  THE PAN-STARRS1 DISTANT z > 5.6 QUASAR SURVEY: MORE THAN 100 QUASARS WITHIN THE FIRST GYR OF THE UNIVERSE , 2016, 1608.03279.

[570]  Maarten Schmidt,et al.  VLA observations of objects in the Palomar Bright Quasar Survey , 1989 .

[571]  S. J. Warren,et al.  The KX method for producing K-band flux-limited samples of quasars , 2000 .

[572]  Andrea Merloni,et al.  TOWARD AN UNDERSTANDING OF CHANGING-LOOK QUASARS: AN ARCHIVAL SPECTROSCOPIC SEARCH IN SDSS , 2015, 1509.03634.

[573]  W. Duschl,et al.  Resolving the mid-infrared cores of local Seyferts , 2009, 0902.2777.

[574]  W. Brandt,et al.  A CHANDRA PERSPECTIVE ON GALAXY-WIDE X-RAY BINARY EMISSION AND ITS CORRELATION WITH STAR FORMATION RATE AND STELLAR MASS: NEW RESULTS FROM LUMINOUS INFRARED GALAXIES , 2010, 1009.3943.

[575]  Timothy Heckman,et al.  The Coevolution of Galaxies and Supermassive Black Holes: Insights from Surveys of the Contemporary Universe , 2014, 1403.4620.

[576]  Astronomy,et al.  THE RADIUS–LUMINOSITY RELATIONSHIP FOR ACTIVE GALACTIC NUCLEI: THE EFFECT OF HOST-GALAXY STARLIGHT ON LUMINOSITY MEASUREMENTS. II. THE FULL SAMPLE OF REVERBERATION-MAPPED AGNs , 2008, 0812.2283.

[577]  M. Radovich,et al.  Variability-selected Active Galactic Nuclei in the VST-SUDARE/VOICE Survey of the COSMOS Field , 2014, 1412.1488.

[578]  R. Cartier,et al.  Characterization of the AGN variability in the optical and Near Infrared regimes , 2016 .

[579]  S. Paltani,et al.  Anatomy of the AGN in NGC 5548 VIII. XMM-Newton's EPIC detailed view of an unexpected variable multilayer absorber , 2016, 1604.01777.

[580]  R. Laing,et al.  Spectrophotometry of a Complete Sample of 3CR Radio Sources: Implications for Unified Models , 1994 .

[581]  et al.,et al.  Observations of Mkn 421 in 2004 with HESS at large zenith angles , 2005 .

[582]  University of Leicester,et al.  Non‐linear X‐ray variability in X‐ray binaries and active galaxies , 2005 .

[583]  Naoj,et al.  ALMA 0.1-0.2 arcsec resolution imaging of the NGC 1068 nucleus - compact dense molecular gas emission at the putative AGN location , 2016, 1604.03953.

[584]  L. Ho Nuclear Activity in Nearby Galaxies , 2008, 0803.2268.

[585]  Alexander G. Gray,et al.  EIGHT-DIMENSIONAL MID-INFRARED/OPTICAL BAYESIAN QUASAR SELECTION , 2008, 0810.3567.

[586]  J. Terrell LUMINOSITY FLUCTUATIONS AND A LOCAL MODEL OF QUASI-STELLAR OBJECTS. , 1967 .

[587]  E. al.,et al.  The Sloan Digital Sky Survey: Technical summary , 2000, astro-ph/0006396.

[588]  J. Prochaska,et al.  GALEX FAR-ULTRAVIOLET COLOR SELECTION OF UV-BRIGHT HIGH-REDSHIFT QUASARS , 2010, 1004.3347.

[589]  K. Mitsuda,et al.  Delayed hard X-rays from Cygnus X-l , 1988, Nature.

[590]  Spain.,et al.  Spitzer Power-Law Active Galactic Nucleus Candidates in the Chandra Deep Field-North , 2007, astro-ph/0701698.

[591]  P. Uttley,et al.  The causal connection between disc and power-law variability in hard state black hole X-ray binaries , 2011, 1104.0634.

[592]  John S. Scott,et al.  The structure of the radio jets in 3C449 , 1979, Nature.

[593]  W. Sparks,et al.  An optical spectroscopic survey of the 3CR sample of radio galaxies with z < 0.3. I. Presentation of the data ⋆ , 2009 .

[594]  Brandon C. Kelly,et al.  Are the Variations in Quasar Optical Flux Driven by Thermal Fluctuations , 2009 .

[595]  S. Gull,et al.  Multifrequency models for the cosmological evolution of extragalactic radio sources , 1981 .

[596]  F. Owen,et al.  VLA observations of NGC 1265 at 4886 MHz. , 1978 .

[597]  M. F. Physik,et al.  Discovery of multiple Lorentzian components in the X-ray timing properties of the Narrow Line Seyfert 1 Ark 564 , 2007, 0709.0262.

[598]  D. Thompson,et al.  GALAXY STELLAR MASS ASSEMBLY BETWEEN 0.2 < z < 2 FROM THE S-COSMOS SURVEY , 2009, 0903.0102.

[599]  E. Wright,et al.  Submillimetre observations of WISE-selected high-redshift, luminous, dusty galaxies , 2014, 1406.2506.

[600]  Maarten Schmidt,et al.  Space Distribution and Luminosity Functions of Quasars , 1970 .

[601]  D. Proga,et al.  On the efficient acceleration of clouds in active galactic nuclei , 2016, 1603.01915.

[602]  C. Kochanek,et al.  C iv LINE-WIDTH ANOMALIES: THE PERILS OF LOW SIGNAL-TO-NOISE SPECTRA , 2013, 1303.3889.

[603]  A. Szalay,et al.  Spectral Energy Distributions and Multiwavelength Selection of Type 1 Quasars , 2006, astro-ph/0601558.

[604]  China.,et al.  Correlation and time delays of the X-ray and optical emission of the Seyfert galaxy NGC 3783 , 2009, 0905.1981.

[605]  G. Fazio,et al.  The Infrared Array Camera (IRAC) for the Spitzer Space Telescope , 2004, astro-ph/0405616.

[606]  COSMIC EVOLUTION OF RADIO SELECTED ACTIVE GALACTIC NUCLEI IN THE COSMOS FIELD , 2009 .

[607]  A. Myers,et al.  THE z = 5 QUASAR LUMINOSITY FUNCTION FROM SDSS STRIPE 82 , 2012, 1212.4493.

[608]  C. Harrison Observational Constraints on the Influence of Active Galactic Nuclei on the Evolution of Galaxies , 2016 .

[609]  D. Maoz,et al.  Accepted for publication in the Astrophysical Journal Letters Silicate emissions in active galaxies- From LINERs to QSOs , 2005 .

[610]  Arjun Dey,et al.  Submitted to the Astrophysical Journal Letters Mid-Infrared Selection of Active Galaxies , 2004 .