Polycyclic aromatic hydrocarbon emission in powerful high-redshift radio galaxies

We present the mid-infrared (IR) spectra of seven of the most powerful radio-galaxies known to exist at 1.5 < z < 2.6. The radio emission of these sources is dominated by the AGN with 500 MHz luminosities in the range 10^(27.8)–10^(29.1) W Hz^(−1). The AGN signature is clearly evident in the mid-IR spectra; however, we also detect polycyclic aromatic hydrocarbon emission, indicative of prodigious star formation at a rate of up to ∼1000 M_⊙ yr^(−1). Interestingly, we observe no significant correlation between AGN power and star formation in the host galaxy. We also find most of these radio galaxies to have weak 9.7 μm silicate absorption features (τ_(9.7 μm) < 0.8) which implies that their mid-IR obscuration is predominantly due to the dusty torus that surrounds the central engine, rather than the host galaxy. The tori are likely to have an inhomogeneous distribution with the obscuring structure consisting of individual clouds. We estimate that these radio galaxies have already formed the bulk of their stellar mass and appear to lie at a stage in their evolution where the obscured AGN dominates the energy output of the system but star formation is also prevalent.

[1]  P. S. Chen,et al.  Spitzer mid-infrared spectra of type II quasars using infrared photometric observations , 2012 .

[2]  G. Helou,et al.  ULTRALUMINOUS STAR-FORMING GALAXIES AND EXTREMELY LUMINOUS WARM MOLECULAR HYDROGEN EMISSION AT z = 2.16 IN THE PKS 1138−26 RADIO GALAXY PROTOCLUSTER , 2012, 1203.3019.

[3]  C. Breuck,et al.  Overdensities of 24 μm sources in the vicinities of high-redshift radio galaxies , 2012, 1202.4490.

[4]  C. Breuck,et al.  THE MID-INFRARED ENVIRONMENTS OF HIGH-REDSHIFT RADIO GALAXIES , 2012, 1202.4489.

[5]  H. Rottgering,et al.  New insights on the z-α correlation from complete radio samples , 2011, 1111.5244.

[6]  C. Winge,et al.  THE COMPTON-THICK SEYFERT 2 NUCLEUS OF NGC 3281: TORUS CONSTRAINTS FROM THE 9.7 μm SILICATE ABSORPTION , 2011, 1106.5731.

[7]  D. Elbaz,et al.  HerMES: SPIRE emission from radio-selected active galactic nuclei , 2011 .

[8]  D. Calzetti,et al.  GOODS–Herschel: an infrared main sequence for star-forming galaxies , 2011, 1105.2537.

[9]  S. Maddox,et al.  Herschel-ATLAS: the link between accretion luminosity and star formation in quasar host galaxies , 2011, 1103.3905.

[10]  CEA-Saclay,et al.  Defining the intrinsic AGN infrared spectral energy distribution and measuring its contribution to the infrared output of composite galaxies , 2011, 1102.1425.

[11]  C. Breuck,et al.  The black holes of radio galaxies during the “Quasar Era”: masses, accretion rates, and evolutionary stage , 2010, 1011.4158.

[12]  C. Breuck,et al.  THE SPITZER HIGH-REDSHIFT RADIO GALAXY SURVEY , 2010, 1010.1385.

[13]  Robert Antonucci,et al.  JET-POWERED MOLECULAR HYDROGEN EMISSION FROM RADIO GALAXIES , 2010, 1009.4533.

[14]  E. Gawiser,et al.  MIPS 24 μm OBSERVATIONS OF THE HUBBLE DEEP FIELD SOUTH: PROBING THE IR–RADIO CORRELATION OF GALAXIES AT z>1 , 2010, 1009.1662.

[15]  J. M. van der Hulst,et al.  MID-INFRARED SPECTRAL INDICATORS OF STAR FORMATION AND ACTIVE GALACTIC NUCLEUS ACTIVITY IN NORMAL GALAXIES , 2010, 1006.5470.

[16]  B. Madore,et al.  MID-INFRARED SPECTRAL DIAGNOSTICS OF LUMINOUS INFRARED GALAXIES , 2010, 1012.1891.

[17]  A. Cimatti,et al.  Star formation in AGN hosts in GOODS-N , 2010, 1005.2562.

[18]  F. Boulanger,et al.  Energetics of the molecular gas in the H_2 luminous radio galaxy 3C 326: Evidence for negative AGN feedback , 2010, 1003.3449.

[19]  A. M. Swinbank,et al.  MID-INFRARED SPECTROSCOPY OF CANDIDATE ACTIVE GALACTIC NUCLEI-DOMINATED SUBMILLIMETER GALAXIES , 2010, 1003.0447.

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

[21]  D. J. Barry,et al.  Advanced Optimal Extraction for the Spitzer/IRS , 2009, 0910.1846.

[22]  Ipac,et al.  Investigating the far-IR/radio correlation of star-forming Galaxies to z = 3 , 2009, 0906.1817.

[23]  I. Smail,et al.  MID-INFRARED SPECTROSCOPY OF SUBMILLIMETER GALAXIES: EXTENDED STAR FORMATION IN MASSIVE HIGH-REDSHIFT GALAXIES , 2009, 0903.4017.

[24]  D. Borgne,et al.  Radio-loud AGN in the XMM-LSS field II. A dichotomy in environment and accretion mode? , 2008 .

[25]  C. Conselice,et al.  Exploring the Evolutionary Paths of the Most Massive Galaxies since z ~ 2 , 2008, 0807.1069.

[26]  Zeljko Ivezic,et al.  AGN Dusty Tori. I. Handling of Clumpy Media , 2008, 0806.0511.

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

[28]  C. Breuck,et al.  Mid-Infrared Spectra of High-Redshift (z > 2) Radio Galaxies , 2008, 0805.2143.

[29]  G. Weigelt,et al.  Discovery of a strong Baldwin effect in mid-infrared AGN lines , 2008, 0805.2151.

[30]  D. Elbaz,et al.  Mid-Infrared Spectral Diagnosis of Submillimeter Galaxies , 2007, 0711.1553.

[31]  S. Alighieri,et al.  Deep spectroscopy of the FUV–optical emission lines from a sample of radio galaxies at z∼ 2.5: metallicity and ionization* , 2007, 0710.5324.

[32]  Riverside,et al.  Large Amounts of Optically Obscured Star Formation in the Host Galaxies of Some Type 2 Quasars , 2007, 0709.4069.

[33]  M. Huynh,et al.  Discovery of Radio Jets in z ~ 2 Ultraluminous Infrared Galaxies with Deep 9.7 μm Silicate Absorption , 2007, 0708.0407.

[34]  J. Bernard-Salas,et al.  PAH Emission from Ultraluminous Infrared Galaxies , 2007, 0707.4190.

[35]  Robert Antonucci,et al.  Shocked Molecular Hydrogen in the 3C 326 Radio Galaxy System , 2007, 0707.0896.

[36]  Takao Nakagawa,et al.  A Spitzer IRS Low-Resolution Spectroscopic Search for Buried AGNs in Nearby Ultraluminous Infrared Galaxies: A Constraint on Geometry between Energy Sources and Dust , 2007, astro-ph/0702136.

[37]  D. Evans,et al.  Hot and cold gas accretion and feedback in radio-loud active galaxies , 2007, astro-ph/0701857.

[38]  A. Pope,et al.  Measuring PAH Emission in Ultradeep Spitzer IRS Spectroscopy of High-Redshift IR-Luminous Galaxies , 2007, astro-ph/0701409.

[39]  J. Bernard-Salas,et al.  The Mid-Infrared Properties of Starburst Galaxies from Spitzer-IRS Spectroscopy , 2006 .

[40]  J. R. Houck,et al.  The Distribution of Silicate Strength in Spitzer Spectra of AGNs and ULIRGs , 2006, astro-ph/0612509.

[41]  J. Surace,et al.  Spitzer Mid-Infrared Spectroscopy of Infrared Luminous Galaxies at z ~ 2. I. The Spectra , 2006, astro-ph/0612297.

[42]  L. Armus,et al.  Mid-Infrared Galaxy Classification Based on Silicate Obscuration and PAH Equivalent Width , 2006, astro-ph/0611918.

[43]  Ž. Ivezić,et al.  The Radio-Loud Fraction of Quasars is a Strong Function of Redshift and Optical Luminosity , 2006, astro-ph/0611453.

[44]  J. Houck,et al.  Deep Mid-Infrared Silicate Absorption as a Diagnostic of Obscuring Geometry toward Galactic Nuclei , 2006, astro-ph/0611458.

[45]  D. Calzetti,et al.  The Mid-Infrared Spectrum of Star-forming Galaxies: Global Properties of Polycyclic Aromatic Hydrocarbon Emission , 2006, astro-ph/0610913.

[46]  R. Abuter,et al.  Extreme Gas Kinematics in the z = 2.2 Powerful Radio Galaxy MRC 1138–262: Evidence for Efficient Active Galactic Nucleus Feedback in the Early Universe? , 2006 .

[47]  C. Grillmair,et al.  Observations of Ultraluminous Infrared Galaxies with the Infrared Spectrograph on the Spitzer Space Telescope. II. The IRAS Bright Galaxy Sample , 2006, astro-ph/0610218.

[48]  C. I. O. Technology.,et al.  Spitzer Observations of 3C Quasars and Radio Galaxies: Mid-Infrared Properties of Powerful Radio Sources , 2006, astro-ph/0612702.

[49]  Caltech,et al.  The Hubble Deep Field-North SCUBA Super-map - IV. Characterizing submillimetre galaxies using deep Spitzer imaging , 2006, astro-ph/0605573.

[50]  M. Elitzur,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, astro-ph/0604222.

[51]  Dimitra Rigopoulou,et al.  Infrared Power-Law Galaxies in the Chandra Deep Field-South: Active Galactic Nuclei and Ultraluminous Infrared Galaxies , 2006 .

[52]  Volker Springel,et al.  The Many lives of AGN: Cooling flows, black holes and the luminosities and colours of galaxies , 2006, astro-ph/0602065.

[53]  R. Antonucci,et al.  Spitzer Reveals Hidden Quasar Nuclei in Some Powerful FR II Radio Galaxies , 2006, astro-ph/0601485.

[54]  R. Perley,et al.  The VLA Low-Frequency Sky Survey , 2005, 0706.1191.

[55]  Oxford,et al.  Breaking the hierarchy of galaxy formation , 2005, astro-ph/0511338.

[56]  R. Sunyaev,et al.  Supermassive black holes in elliptical galaxies: switching from very bright to very dim , 2005 .

[57]  Edinburgh,et al.  350 µm sharc-II imaging of luminous high-redshift radio galaxies , 2005, astro-ph/0509364.

[58]  R. Siebenmorgen,et al.  Spitzer IRS spectroscopy of 3CR radio galaxies and quasars: testing the unified schemes , 2005, astro-ph/0509340.

[59]  S. Tremaine,et al.  Deriving the Mass Distribution of M87 from Globular Clusters , 2005, astro-ph/0508463.

[60]  G. Kauffmann,et al.  The many lives of active galactic nuclei: cooling flows, black holes and the luminosities and colour , 2005, astro-ph/0508046.

[61]  I. Smail,et al.  A Redshift Survey of the Submillimeter Galaxy Population , 2004, astro-ph/0412573.

[62]  E. Peeters,et al.  Polycyclic Aromatic Hydrocarbons as a Tracer of Star Formation? , 2004 .

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

[64]  J. R. Houck,et al.  The SMART Data Analysis Package for the Infrared Spectrograph on the Spitzer Space Telescope , 2004, astro-ph/0408295.

[65]  Gary J. Melnick,et al.  In-flight performance and calibration of the Infrared Array Camera (IRAC) for the Spitzer Space Telescope , 2004, SPIE Astronomical Telescopes + Instrumentation.

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

[67]  E. Peeters,et al.  PAHs as a tracer of star formation , 2004, astro-ph/0406183.

[68]  Iap,et al.  Gas, dust and star formation in distant radio galaxies , 2004, astro-ph/0405567.

[69]  R. Siebenmorgen,et al.  ISOCAM survey and dust models of 3CR radio galaxies and quasars , 2004 .

[70]  R. Maiolino,et al.  The relation between AGN hard X-ray emission and mid-infrared continuum from ISO spectra: Scatter and unification aspects , , 2004, astro-ph/0402082.

[71]  W. Percival,et al.  The formation of cluster elliptical galaxies as revealed by extensive star formation , 2003, Nature.

[72]  S. Alighieri,et al.  Kinematically quiet haloes around z ∼ 2.5 radio galaxies. Keck spectroscopy , 2003, astro-ph/0309012.

[73]  B. Draine INTERSTELLAR DUST GRAINS , 2003, astro-ph/0304489.

[74]  M. Dopita,et al.  Giant Lyα Nebulae Associated with High-Redshift Radio Galaxies , 2003, astro-ph/0303637.

[75]  E. Bell Estimating Star Formation Rates from Infrared and Radio Luminosities: The Origin of the Radio-Infrared Correlation , 2002, astro-ph/0212121.

[76]  A. Dey,et al.  Massive Elliptical Galaxies at High Redshift: NICMOS Imaging of z ≈ 1 Radio Galaxies , 2002, astro-ph/0211469.

[77]  U. Klaas,et al.  The relation of PAH strength with cold dust in galaxies , 2002 .

[78]  Subaru Telescope,et al.  JHK Spectra of the z = 2.39 Radio Galaxy 53W002^1 , 2001, astro-ph/0104473.

[79]  H. Rottgering,et al.  NICMOS Observations of High-Redshift Radio Galaxies: Witnessing the Formation of Bright Elliptical Galaxies? , 2001, astro-ph/0102323.

[80]  G. Lewis,et al.  The Nature of the Bright Submillimeter Galaxy Population: A Radio-preselected Sample with I > ~25 , 2000, astro-ph/0011066.

[81]  P. Kroupa On the variation of the initial mass function , 2000, astro-ph/0009005.

[82]  U. Berkeley,et al.  Extragalactic Results from the Infrared Space Observatory , 2000, astro-ph/0002184.

[83]  J. Dunlop,et al.  A submillimetre survey of the star formation history of radio galaxies , 2000, astro-ph/0002083.

[84]  G. Helou,et al.  The Mid-Infrared Spectra of Normal Galaxies , 2000, The Astrophysical journal.

[85]  K. Blundell,et al.  The inevitable youthfulness of known high-redshift radio galaxies , 1999, Nature.

[86]  S. Sandford,et al.  Modeling the Unidentified Infrared Emission with Combinations of Polycyclic Aromatic Hydrocarbons , 1999, The Astrophysical journal.

[87]  Jr.,et al.  STAR FORMATION IN GALAXIES ALONG THE HUBBLE SEQUENCE , 1998, astro-ph/9807187.

[88]  S. Tremaine,et al.  The Demography of Massive Dark Objects in Galaxy Centers , 1997, astro-ph/9708072.

[89]  H. Rottgering,et al.  The Westerbork Northern Sky Survey (WENSS) I. A 570 square degree Mini-Survey around the North Ecliptic Pole ? , 1997 .

[90]  Steve Rawlings,et al.  A sample of 6C radio sources designed to find objects at redshift z>4 - I. The radio data , 1997, astro-ph/9707336.

[91]  G. W. Torrence,et al.  The Texas Survey of Radio Sources Covering -35.5 degrees < declination < 71.5 degrees at 365 MHz , 1996 .

[92]  J. Dunlop,et al.  Detection of a large mass of dust in a radio galaxy at redshift z = 3.8 , 1994, Nature.

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

[94]  P. McCarthy,et al.  The Ly-alpha/H-alpha ratio in high-redshift radio galaxies , 1992 .

[95]  P. Quinn,et al.  The kinematics of the ionized gas around powerful radio galaxies. , 1989 .

[96]  W. V. Breugel,et al.  Extended optical-line-emitting gas in radio galaxies: broad-band optical, narrow-band optical, and radio imaging of a representative sample , 1988 .

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

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

[99]  A. Lawrence CLASSIFICATION OF ACTIVE GALAXIES AND THE PROSPECT OF A UNIFIED PHENOMENOLOGY. , 1987 .

[100]  Maarten Schmidt,et al.  Continuum energy distributions of quasars in the Palomar-Green Survey , 1987 .

[101]  Garth D. Illingworth,et al.  Galaxy Collisions and Mergers: The Genesis of Very Powerful Radio Sources? , 1986 .

[102]  R. Fosbury,et al.  Very extended ionized gas in radio galaxies – III. [O III] emission along the radio axis of PKS 0634 – 20 , 1984 .

[103]  R. Antonucci Optical spectropolarimetry of radio galaxies. , 1984 .

[104]  W. Goss,et al.  Very extended ionized gas in radio galaxies – I. A radio, optical and ultraviolet study of PKS 2158 – 380 , 1982 .

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

[106]  M. Rowan-Robinson,et al.  On the unity of activity in galaxies. , 1977 .

[107]  T. A. Matthews,et al.  A Discussion of Galaxies Indentified with Radio Sources. , 1964 .

[108]  J. Puget,et al.  A New Component of the Interstellar Matter: Small Grains and Large Aromatic Molecules , 1989 .

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

[110]  D. Lynden-Bell,et al.  Galactic Nuclei as Collapsed Old Quasars , 1969, Nature.

[111]  E. Salpeter The Luminosity function and stellar evolution , 1955 .