Investigation on young radio AGNs based on SDSS spectroscopy

The gigahertz peaked spectrum (GPS) sources, compact steep spectrum (CSS) radio sources, and high-frequency peaker (HFP) radio sources are thought to be young radio active galactic nuclei (AGNs) at the early stage of AGN evolution. We investigated the optical properties of the largest sample of 126 young radio AGNs based on the spectra in SDSS DR12. We find that the black hole masses MBH range from 107.32 to 109.84$\rm M_{\odot }$ and the Eddington ratios Redd vary from 10−4.93 to 100.37, suggesting that young radio AGNs have various accretion activities and not all are accreting at high accretion rate. Our young radio sources generally follow the evolutionary trend towards large-scale radio galaxies with increasing linear size and decreasing accretion rate in the radio power–linear size diagram. The radio properties of low-luminosity young radio AGNs with low Redd are discussed. The line width of [O iii] λ5007 core (σ[O iii]) is found to be a good surrogate of stellar velocity dispersion σ*. The radio luminosity $L_{\rm 5\, GHz}$ correlates strongly with [O iii] core luminosity L[O iii], suggesting that radio activity and accretion are closely related in young radio sources. We find one object that can be defined as a narrow-line Seyfert 1 galaxy, representing a population of young AGNs with both young jet and early accretion activity. The optical variabilities of 15 quasars with multi-epoch spectroscopy were investigated. Our results show that the optical variability in young AGN quasars presents low variations ($\leqslant \! 60{{\ \rm per\ cent}}$) similar to the normal radio-quiet quasars.

[1]  D. Dultzin,et al.  Civλ1549 as an Eigenvector 1 Parameter for Active Galactic Nuclei , 2020 .

[2]  K. Mooley,et al.  Changing-Look AGNs or Short-Lived Radio Sources? , 2017, Front. Astron. Space Sci..

[3]  S. Ciroi,et al.  An Orientation-Based Unification of Young Jetted AGN: The Case of 3C 286 , 2017, Front. Astron. Space Sci..

[4]  T. An,et al.  Parsec-scale jet properties of the gamma-ray quasar 3C 286 , 2016, 1611.01234.

[5]  SDSSJ143244.91+301435.3 at VLBI: a compact radio galaxy in a narrow-line Seyfert 1 , 2016, 1609.09501.

[6]  M. Cappellari Improving the full spectrum fitting method: accurate convolution with Gauss-Hermite functions , 2016, 1607.08538.

[7]  The Million Optical—Radio/X-ray Associations (MORX) Catalogue , 2016, Publications of the Astronomical Society of Australia.

[8]  P. Giommi,et al.  Active galactic nuclei: what’s in a name? , 2017, The Astronomy and Astrophysics Review.

[9]  L. Chen,et al.  Correlation between excitation index and Eddington ratio in radio galaxies , 2016 .

[10]  S. Ciroi,et al.  A spectroscopic analysis of a sample of narrow-line Seyfert 1 galaxies selected from the Sloan Digital Sky Survey , 2016, 1607.03438.

[11]  M. Gu,et al.  THE OPTICAL VARIABILITY OF SDSS QUASARS FROM MULTI-EPOCH SPECTROSCOPY. II. COLOR VARIATION , 2016, 1603.06876.

[12]  S. Mathur,et al.  Compact steep-spectrum sources as the parent population of flat-spectrum radio-loud narrow-line Seyfert 1 galaxies , 2016, 1601.06165.

[13]  K. Wajima,et al.  THE RADIO PROPERTIES OF RADIO-LOUD NARROW-LINE SEYFERT 1 GALAXIES ON PARSEC SCALES , 2015, 1509.01889.

[14]  O. University,et al.  Parent population of flat-spectrum radio-loud narrow-line Seyfert 1 galaxies , 2015, 1504.02772.

[15]  Kiloparsec-Scale Jets in Three Radio-Loud Narrow-Line Seyfert 1 Galaxies , 2015, 1501.05299.

[16]  The Fermi-LAT Collaboration Fermi Large Area Telescope Third Source Catalog , 2015, 1501.02003.

[17]  Hilo,et al.  THE ELEVENTH AND TWELFTH DATA RELEASES OF THE SLOAN DIGITAL SKY SURVEY: FINAL DATA FROM SDSS-III , 2015, 1501.00963.

[18]  A. Caccianiga,et al.  SDSS J143244.91+301435.3: a link between radio-loud narrow-line Seyfert 1 galaxies and compact steep-spectrum radio sources? , 2014, 1403.3229.

[19]  A. Celotti,et al.  JET EMISSION IN YOUNG RADIO SOURCES: A FERMI LARGE AREA TELESCOPE GAMMA-RAY VIEW , 2013, 1311.7647.

[20]  L. Ho,et al.  Coevolution (Or Not) of Supermassive Black Holes and Host Galaxies: Supplemental Material , 2013, 1304.7762.

[21]  L. Ho,et al.  EVIDENCE FOR ACTIVE GALACTIC NUCLEUS DRIVEN OUTFLOWS IN YOUNG RADIO QUASARS , 2013, 1303.7194.

[22]  Chung-Pei Ma,et al.  REVISITING THE SCALING RELATIONS OF BLACK HOLE MASSES AND HOST GALAXY PROPERTIES , 2012, 1211.2816.

[23]  T. An,et al.  THE DYNAMIC EVOLUTION OF YOUNG EXTRAGALACTIC RADIO SOURCES , 2012, 1211.1760.

[24]  T. Nagao,et al.  ACCRETION PROPERTIES OF HIGH- AND LOW-EXCITATION YOUNG RADIO GALAXIES , 2012, 1208.2025.

[25]  M. Tornikoski,et al.  Multifrequency study of GHz-peaked spectrum sources and candidates with the RATAN-600 radio telescope , 2012 .

[26]  INAF-IRA Bologna,et al.  Parsec‐scale morphology and spectral‐index distribution in faint high‐frequency peakers , 2012, 1205.0395.

[27]  X. Hong,et al.  VLBI OBSERVATIONS OF 10 COMPACT SYMMETRIC OBJECT CANDIDATES: EXPANSION VELOCITIES OF HOT SPOTS , 2011, 1111.3710.

[28]  L. Ho,et al.  EXPLORING THE LOW-MASS END OF THE MBH–σ* RELATION WITH ACTIVE GALAXIES , 2011, 1106.6232.

[29]  G. Richards,et al.  A CATALOG OF QUASAR PROPERTIES FROM SLOAN DIGITAL SKY SURVEY DATA RELEASE 7 , 2011, 2209.03987.

[30]  Paolo Tanga,et al.  Gaia Follow-up Network for the Solar System Objects , 2011 .

[31]  A. Hopkins,et al.  An unbiased sample of bright southern compact steep spectrum and gigahertz peaked spectrum sources , 2011, 1105.4676.

[32]  X. Hong,et al.  C O ] 2 0 D ec 2 01 1 VLBI observations of 10 CSO candidates : expansion velocities of hot spots , 2011 .

[33]  The dynamical ages of two low-luminosity young radio sources , 2010 .

[34]  M. Gawroński,et al.  A survey of Low Luminosity Compact sources and its implication for evolution of radio-loud AGNs. I. Radio data , 2010, 1009.5235.

[35]  M. Kunert‐Bajraszewska,et al.  A survey of Low Luminosity Compact sources and its implication for evolution of radio-loud AGNs. II. Optical analysis , 2010, 1009.5237.

[36]  G. Richards,et al.  A CATALOG OF QUASAR PROPERTIES FROM SLOAN DIGITAL SKY SURVEY DATA RELEASE 7 , 2010, 1006.5178.

[37]  Italy.,et al.  Spectral variability in faint high-frequency peakers , 2010, 1006.2049.

[38]  J. Liu,et al.  The follow-up European VLBI Network observations of twelve GPS radio sources at 5 GHz , 2010, 1005.3165.

[39]  A. J. Cenarro,et al.  Evolutionary stellar population synthesis with MILES – I. The base models and a new line index system , 2010, 1004.4439.

[40]  Yongjun Chen,et al.  THE COMPACT RADIO STRUCTURE OF RADIO-LOUD NARROW LINE SEYFERT 1 GALAXIES , 2010, 1004.3058.

[41]  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.

[42]  Qingwen Wu,et al.  The black hole mass, Eddington ratio and MBH–σ[O iii] relation in young radio galaxies , 2009, 0905.3663.

[43]  J. Wang,et al.  UNDERSTANDING THE AGN–HOST CONNECTION IN BROAD Mg ii EMISSION-SELECTED AGN–HOST HYBRID QUASARS , 2009, 0902.2831.

[44]  M. Giroletti,et al.  Samples and statistics of CSS and GPS sources , 2009, 0904.1068.

[45]  High Frequency Peakers: The Faint Sample , 2009, 0901.3068.

[46]  R. Schilizzi,et al.  VLBI observations of the CORALZ sample: young radio sources at low redshift , 2009, 0901.2124.

[47]  Á. Labiano Tracing jet-ISM interaction in young AGN: correlations between [O III] lambda 5007 angstrom and 5-GHz emission , 2008, 0807.2230.

[48]  S. Komossa,et al.  ACCEPTED FOR PUBLICATION IN APJ Preprint typeset using LATEX style emulateapj v. 08/13/06 A POPULATION OF RADIO-LOUD NARROW LINE SEYFERT 1 GALAXIES WITH BLAZAR-LIKE PROPERTIES? , 2022 .

[49]  U. Sheffield,et al.  Fast outflows in compact radio sources: evidence for AGN-induced feedback in the early stages of radio source evolution , 2008, 0802.1444.

[50]  Iac,et al.  Constraining the nature of high frequency peakers - II. Polarization properties , 2007, 0712.3207.

[51]  G. Richards,et al.  Biases in Virial Black Hole Masses: An SDSS Perspective , 2007, 0709.3098.

[52]  Y. Wadadekar,et al.  Submitted to ApJS Preprint typeset using L ATEX style emulateapj v. 10/09/06 THE SIXTH DATA RELEASE OF THE SLOAN DIGITAL SKY SURVEY , 2022 .

[53]  Bologna,et al.  Constraining the nature of high frequency peakers - The spectral variability , 2007, 0708.3979.

[54]  D. Xu,et al.  Narrow-Line Seyfert 1 Galaxies and the MBH-σ Relation , 2007, 0708.0256.

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

[56]  N. Gehrels,et al.  The VLBA Imaging and Polarimetry Survey at 5 GHz , 2006, astro-ph/0611459.

[57]  P. Barthel,et al.  GPS radio sources: new optical observations and an updated master list , 2006, astro-ph/0611600.

[58]  R. Peletier,et al.  Medium-resolution Isaac Newton Telescope library of empirical spectra - II. The stellar atmospheric parameters , 2006, astro-ph/0611618.

[59]  R. Peletier,et al.  MILES: A Medium resolution INT Library of Empirical Spectra , 2006, astro-ph/0607009.

[60]  Hongyan Zhou,et al.  A Comprehensive Study of 2000 Narrow Line Seyfert 1 Galaxies from the Sloan Digital Sky Survey. I. The Sample , 2006, astro-ph/0603759.

[61]  H. Adorf,et al.  Radio-loud Narrow-Line Type 1 Quasars , 2006, astro-ph/0603680.

[62]  Ran Wang,et al.  Estimate black hole masses of AGNs using ultraviolet emission line properties , 2005, astro-ph/0512609.

[63]  M. Gu,et al.  The Jet Power, Radio Loudness, and Black Hole Mass in Radio-loud Active Galactic Nuclei , 2005, astro-ph/0510241.

[64]  L. Ho,et al.  ESTIMATING BLACK HOLE MASSES IN ACTIVE GALAXIES USING THE H α EMISSION LINE , 2005 .

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

[66]  L. Ho,et al.  A Comparison of Stellar and Gaseous Kinematics in the Nuclei of Active Galaxies , 2005, astro-ph/0503675.

[67]  Cheng Li,et al.  Partially Obscured Quasars in the Sloan Digital Sky Survey Early Data Release , 2004, astro-ph/0411171.

[68]  R. Zamanov,et al.  Average Ultraviolet Quasar Spectra in the Context of Eigenvector 1: A Baldwin Effect Governed by the Eddington Ratio? , 2004, astro-ph/0408334.

[69]  L. Gurvits,et al.  The VSOP 5 GHz Active Galactic Nucleus Survey. IV. The Angular Size/Brightness Temperature Distribution , 2004, astro-ph/0407069.

[70]  Swinburne,et al.  New candidate GHz peaked spectrum and compact steep spectrum sources , 2004, astro-ph/0407010.

[71]  R. Schilizzi,et al.  The CORALZ sample – I. Young radio-loud active galactic nuclei at low redshift , 2004 .

[72]  Eric Emsellem,et al.  Parametric Recovery of Line‐of‐Sight Velocity Distributions from Absorption‐Line Spectra of Galaxies via Penalized Likelihood , 2003, astro-ph/0312201.

[73]  M. Murgia Spectral Ages of CSOs and CSS Sources , 2003, Publications of the Astronomical Society of Australia.

[74]  T. Boroson Does the Narrow [O III] λ5007 Line Reflect the Stellar Velocity Dispersion in Active Galactic Nuclei? , 2002, astro-ph/0211372.

[75]  P. Barthel,et al.  1245+676 — A CSO/GPS Source being an Extreme Case of a Double-Double Structure , 2002, Publications of the Astronomical Society of Australia.

[76]  J. Conway,et al.  Proper Motions in Compact Symmetric Objects , 2002, Publications of the Astronomical Society of Australia.

[77]  R. Schilizzi,et al.  Fundamental galaxy parameters for radio-loud active galactic nuclei and the black hole–radio power connection , 2002, astro-ph/0209380.

[78]  R. Schilizzi,et al.  A Parkes half-Jansky sample of GHz peaked spectrum galaxies , 2002, astro-ph/0208368.

[79]  R. Morganti,et al.  Hubble Space Telescope STIS Observations of the Kinematics of Emission-Line Nebulae in Three Compact Steep-Spectrum Radio Sources , 2002 .

[80]  B. Peterson,et al.  Determining Central Black Hole Masses in Distant Active Galaxies and Quasars. II. Improved Optical and UV Scaling Relationships , 2002, astro-ph/0601303.

[81]  S. Tremaine,et al.  The Slope of the Black Hole Mass versus Velocity Dispersion Correlation , 2002, astro-ph/0203468.

[82]  T. Boroson Does the Narrow [ O III ] λ 5007 Line Reflect the Stellar Velocity Dispersion in AGN ? , 2002 .

[83]  A. Kus,et al.  FIRST-based survey of compact Steep Spectrum sources. I. MERLIN images of arc-second scale objects , 2001, astro-ph/0112511.

[84]  M. Véron-Cetty,et al.  A spectrophotometric atlas of narrow-line seyfert 1 galaxies , 2001, astro-ph/0104151.

[85]  F. Pozzi,et al.  Multi{frequency VLA observations of a new sample of CSS/GPS radio sources , 2001 .

[86]  H. Hirabayashi,et al.  The VSOP 5 GHz AGN Survey , 2001 .

[87]  P. Reich,et al.  Radio-loud active galaxies in the northern ROSAT All-Sky Survey. IV. Properties of sources stronger than 100 mJy at 5 GHz , 2000 .

[88]  D. Merritt,et al.  A Fundamental Relation between Supermassive Black Holes and Their Host Galaxies , 2000, astro-ph/0006053.

[89]  A. Peck,et al.  The COINS Sample: VLBA Identifications of Compact Symmetric Objects , 1999, astro-ph/9912189.

[90]  Hia,et al.  Differential Galaxy Evolution in Cluster and Field Galaxies at z ≈ 0.3 , 1999, astro-ph/9906470.

[91]  M. Livio,et al.  Radio-loud and Radio-quiet Active Galactic Nuclei , 1999, astro-ph/9905322.

[92]  D. Schlegel,et al.  Maps of Dust Infrared Emission for Use in Estimation of Reddening and Cosmic Microwave Background Radiation Foregrounds , 1998 .

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

[94]  S. Baum,et al.  ASTRONOMY AND ASTROPHYSICS Evaporation of the accretion disk in dwarf novae during quiescence , 1997 .

[95]  H. Rottgering,et al.  A new sample of faint Gigahertz peaked spectrum radio sources , 1998, astro-ph/9803140.

[96]  D. Schlegel,et al.  Maps of Dust IR Emission for Use in Estimation of Reddening and CMBR Foregrounds , 1997, astro-ph/9710327.

[97]  Italy.,et al.  Jets and accretion processes in active galactic nuclei: further clues , 1996, astro-ph/9611111.

[98]  E. Feigelson,et al.  Radio-loud active galaxies in the northern ROSAT All-Sky Survey. I. Radio identifications , 1996, astro-ph/9607058.

[99]  C. Nelson,et al.  Stellar and Gaseous Kinematics of Seyfert Galaxies. II. The Role of the Bulge , 1996 .

[100]  Michael G. Akritas,et al.  A test for partial correlation with censored astronomical data , 1996 .

[101]  R. Hunstead,et al.  Revealing the Effects of Orientation in Composite Quasar Spectra , 1995 .

[102]  R. Narayan,et al.  Advection dominated accretion: Underfed black holes and neutron stars , 1994, astro-ph/9411059.

[103]  P. Hewett,et al.  A High Signal-to-Noise Ratio Composite Quasar Spectrum , 1991 .

[104]  A. L. Edwards,et al.  A New Catalog of 53,522 4.85 GHz Sources , 1991 .

[105]  G. J. Babu,et al.  Linear regression in astronomy. II , 1990 .

[106]  R. Gelderman AN OPTICAL STUDY OF COMPACT STEEP-SPECTRUM RADIO SOURCES , 1990 .

[107]  J. Peacock,et al.  MERLIN and VLA observations of compact steep-spectrum radio sources , 1989 .

[108]  R. Goodrich Spectropolarimetry of 'narrow-line' Seyfert 1 galaxies , 1989 .

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