The quest for Type 2 quasars: What are the X-ray observations of optically selected QSOs2 telling us?

Similar documents
Results from the Chandra Deep Field North

arxiv:astro-ph/ v1 4 Sep 2006

The bolometric output of AGN in the XMM-COSMOS survey

X ray Survey Results on AGN Physics and Evolution Niel Brandt

The quest for early Black Holes

Lecture 11: SDSS Sources at Other Wavelengths: From X rays to radio. Astr 598: Astronomy with SDSS

Compton-thick AGN. SWIFT/BAT 70 month survey (+ CDFS 7Ms + models) I. Georgantopoulos National Observatory of Athens

X-raying High-Redshift AGNs and the First Black Holes: From Chandra to Lynx

Scientific cases for Simbol-X of interest of the Italian community

The Bright Side of the X-ray Sky The XMM-Newton Bright Survey. R. Della Ceca. INAF Osservatorio Astronomico di Brera,Milan

Identifying distant* hidden monsters with NuSTAR

Extended Chandra Multi-Wavelength Project (ChaMPx): Source Catalog and Applications

LeMMINGs the emerlin radio legacy survey of nearby galaxies Ranieri D. Baldi

Shedding light on hyperluminous quasars at the golden epoch of AGN/galaxy coevolu<on

Chien-Ting Chen! Dartmouth College

AGN Selec)on Techniques. Kris)n Kulas Astro 278 Winter 2012

Feeding the Beast. Chris Impey (University of Arizona)

The BAT AGN Survey - Progress Report J. Tueller, C. Markwardt, L. Winter and R. Mushotzky Goddard Space Flight Center

Studying Merger Driven BH Growth with Observations of Dual AGN

X RAY EMITTING EROS AS TRACERS OF BLACK HOLES-GALAXIES COEVOLUTION

Luminous Quasars and AGN Surveys with ELTs

The Hard X-Ray Luminosity Function of High-Redshift (z > 3) AGN

Tidal disruption events from the first XMM-Newton Slew Survey

ROSAT Roentgen Satellite. Chandra X-ray Observatory

Background Picture: Millennium Simulation (MPA); Spectrum-Roentgen-Gamma satellite (P. Predehl 2011)

Star Formation Indicators

Revealing powerful outflows in z~1.5 obscured QSOs

Multi epoch variability of αox in the CDFS

The Correlation Between the Hard-X-ray Photon Index and the Accretion Rate in AGN: Probing Black-Hole Growth Across Cosmic Time

Black Holes and Active Galactic Nuclei

arxiv:astro-ph/ v1 29 Mar 2000

The History of Active Galaxies A.Barger, P. Capak, L. Cowie, RFM, A. Steffen, and Y. Yang

SUPPLEMENTARY INFORMATION

arxiv:astro-ph/ v1 16 Apr 2004

Hard X-ray AGN and the Cosmic X-ray Background

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

Obscured AGN. I. Georgantopoulos National Observatory of Athens

The Phenomenon of Active Galactic Nuclei: an Introduction

Radio Properties Of X-Ray Selected AGN

TEMA 6. Continuum Emission

Active Galactic Nuclei OIII

Introduction to AGN. General Characteristics History Components of AGN The AGN Zoo

Surveys for high-redshift (z>6) AGN with AXIS (cf. Athena) James Aird. University of Cambridge (-> University of Leicester)

Broadband X-ray emission from radio-quiet Active Galactic Nuclei

TEMA 3. Host Galaxies & Environment

Multi-wavelength Surveys for AGN & AGN Variability. Vicki Sarajedini University of Florida

MASSIVE BLACK HOLES AMY REINES IN NEARBY DWARF GALAXIES HUBBLE FELLOW NATIONAL OPTICAL ASTRONOMY OBSERVATROY

The search for. COSMOS and CDFS. Marcella Brusa

Paul Sell. University of Wisconsin-Madison Advisor: Christy Tremonti

THE X-RAY BACKGROUND AND THE DEEP X-RAY SURVEYS

The History of Active Galaxies A.Barger, P. Capak, L. Cowie, RFM, A. Steffen,W-H Wang and Y. Yang

Variable X-ray absorption in the mini-bal QSO PG

The gas-galaxy-halo connection

NEW CONSTRAINTS ON THE BLACK HOLE SPIN IN RADIO LOUD QUASARS

Soft X-ray Emission Lines in Active Galactic Nuclei. Mat Page

PROBING THE AGN/GALAXY CO-EVOLUTION AT ITS EXTREME

AGN feedback. Nadia Zakamska & Rachael Alexandroff Johns Hopkins University

Active Galaxies & Quasars

A new catalogue of ultraluminous X-ray sources (and more!)

arxiv: v1 [astro-ph.co] 16 Sep 2009

Quasars (and AGN) with the Nuclear Spectroscopic Telescope Array (NuSTAR) Fiona Harrison Caltech

PDF hosted at the Radboud Repository of the Radboud University Nijmegen

Rajib Ganguly (University of Michigan-Flint)

A precise census of compton-thick agn

arxiv:astro-ph/ v1 1 Nov 2000

CHARACTERIZATION OF AGN VARIABILITY IN THE OPTICAL AND NIR REGIMES

Clustering studies of ROSAT/SDSS AGN through cross-correlation functions with SDSS Galaxies

Hunting for Monsters. Selecting and Characterizing Obscured Quasars with WISE Kevin Hainline Hidden Monsters Dartmouth College August 2016

A Unified Model for AGN. Ryan Yamada Astro 671 March 27, 2006

Nuclear X-ray Emission and Mass Outflow From Broad Lined Radio Galaxies (Lorentz Center, Leiden 2009)

of the buried AGN in NGC 1068

Hard X-ray selected sample of AGN: population studies

Observing the Formation of Dense Stellar Nuclei at Low and High Redshift (?) Roderik Overzier Max-Planck-Institute for Astrophysics

Investigating Ultraluminous X-ray Sources through multi-wavelength variability, broadband spectra, and theoretical modelling

Osservatorio Astronomico di Bologna, 27 Ottobre 2011

Ultraluminous X-ray Sources in Nearby Galaxies

ACTIVE GALACTIC NUCLEI: optical spectroscopy. From AGN classification to Black Hole mass estimation

Extragalactic X-ray Surveys: Source Populations and their Evolution. Paul Green SAO

Cosmology The Road Map

Hunting for feeding and feedback signatures in a sample of hard X-ray selected NLS1

Survey of dusty AGNs based on the mid-infrared all-sky survey catalog. Shinki Oyabu (Nagoya University) & MSAGN team

Illuminating the Dark Ages: Luminous Quasars in the Epoch of Reionisation. Bram Venemans MPIA Heidelberg

Astronomy. Astrophysics. An XMM Newton study of the hard X ray sky. E. Piconcelli 1,2,3, M. Cappi 1, L. Bassani 1,G.DiCocco 1, and M.

AC Fabian, M. Cappi, J Sanders. Cosmic Feedback from AGN

X-ray emission from optical novae in M 31. Wolfgang Pietsch (MPE)

THE COSMIC EVOLUTION OF HARD X-RAY SELECTED ACTIVE GALACTIC NUCLEI 1

The evolution of star forming galaxies with the Wide Field X-ray Telescope

arxiv:astro-ph/ v1 6 Dec 1999

The parsec scale of. ac-ve galac-c nuclei. Mar Mezcua. International Max Planck Research School for Astronomy and Astrophysics

Hard X-ray Properties of Water Maser Galaxies

Hot-subdwarf stars: a new class of X-ray sources

The Nature of Extreme X-ray to Optical Ratio Sources (EXOs) Agnese Del Moro

Radiation Backgrounds Observations across the Electromagnetic Spectrum. Günther Hasinger, MPE Garching & TUM

OABo days. The physics, environment and evolu/on of early supermassive black holes. R. Gilli

Galaxies 626. Lecture 10 The history of star formation from far infrared and radio observations

Active Galactic Nuclei SEDs as a function of type and luminosity

Gamma-ray emitting narrow-line Seyfert 1 galaxies and their place in the AGN zoo

NuSTAR spectral analysis of the two bright Seyfert 1 galaxies: MCG and NGC Alessia Tortosa Università Roma Tre

The high-energy view of Seyfert galaxies through broad-band monitoring campaigns

Revealing the coronal properties of Seyfert galaxies with NuSTAR

Transcription:

The quest for Type 2 quasars: What are the X-ray observations of optically selected QSOs2 telling us? Cristian Vignali Dipartimento di Astronomia, Universita`degli Studi di Bologna In collaboration with D.M. Alexander, A. Comastri

What is a Type 2 quasar? 2

What is a Type 2 quasar? Optical: high-ionization, narrow emission-line (FWHM<1500-2000 km/s) spectrum big cousins of local Seyfert 2 galaxies 2

What is a Type 2 quasar? Optical: high-ionization, narrow emission-line (FWHM<1500-2000 km/s) spectrum big cousins of local Seyfert 2 galaxies from HELLAS2XMM (CV and Mignoli 2006) 2

What is a Type 2 quasar? Optical: high-ionization, narrow emission-line (FWHM<1500-2000 km/s) spectrum big cousins of local Seyfert 2 galaxies X-rays: high-luminosity (>10 44 erg/s), obscured (N H >10 22 cm -2 ) AGN required by XRB synthesis models 2

What is a Type 2 quasar? Optical: high-ionization, narrow emission-line (FWHM<1500-2000 km/s) spectrum big cousins of local Seyfert 2 galaxies X-rays: high-luminosity (>10 44 erg/s), obscured (N H >10 22 cm -2 ) AGN required by XRB synthesis models Mainieri et al. 2005 CDF-S: z=3.66 + many more from Chandra and XMM-Newton surveys (e.g., Stern+02, Norman+02) sometimes the two definitions do not match Selection at other wavelengths (e.g., in the MID-IR?) 2

Selecting QSOs2 from optical surveys A large fraction of the X-ray obscured AGN do not appear as the big cousins of the local Seyfert 2 galaxies Possibility to pick up a different obscured AGN population through optical selection? 3

Selecting QSOs2 from optical surveys Possibility to pick up a different obscured AGN population through optical selection? 3

Selecting QSOs2 from optical surveys incomplete view of the Type 2 quasar population from current X-ray surveys? 3

Selecting QSOs2 from optical surveys incomplete view of the Type 2 quasar population from current X-ray surveys? different approach To look at the X-ray properties of the QSO2 population selected from the Sloan Digital Sky Survey (SDSS) at relatively bright magnitude limits 3

The sample selection 4

The SDSS Type 2 quasar sample Composite spectra of SDSS Type 2 AGN Zakamska et al. 2003 SELECTION: high-ew, narrow emission-line spectra [3800-9200 Å, 1800<R<2100] S/N>7.5 EW[OIII] > 4 Å (rest frame) FWHM(H β ) < 2000 km/s careful subtraction of the host galaxy contribution QSO regime (classic): M B < -23 <L B /L [OIII] > ~ 100 for BL AGN M B < -23 L B > 2.9x10 10 L not-homogeneous selection: 28% targets, 42% serend, 19% DSES, 11% special plates L > 3x10 8 L see Zakamska s talk for details 5

The SDSS Type 2 quasar sample Zakamska et al. 2003 SELECTION: high-ew, narrow emission-line spectra [3800-9200 Å, 1800<R<2100] S/N>7.5 EW[OIII] > 4 Å (rest frame) FWHM(H β ) < 2000 km/s careful subtraction of the host galaxy contribution QSO regime (classic): M B < -23 <L B /L [OIII] > ~ 100 for BL AGN M B < -23 L B > 2.9x10 10 L not-homogeneous selection: 28% targets, 42% serend, 19% DSES, 11% special plates L > 3x10 8 L see Zakamska s talk for details 5

The X-ray view of SDSS 6

A preliminary study with ROSAT Using mostly ROSAT data (CV, Alexander & Comastri 2004a,b) 3/17 SDSS Type 2 quasar candidates detected Toy model : L [OIII] L [2-10 kev] using Mulchaey et al. 94 Seyfert regime QSO regime extrapolated L [0.5-2 kev] to be compared with that observed N H >10 22 cm -2 at z=0.5 Stacked N H =(1-3)10 23 cm -2 XMM-Newton genuine Type 2 quasar (L X =4.5x10 44 erg/s, N H =1-3x10 22 cm -2 ) 7

[OIII] luminosity is a proxy of the nuclear activity (see also Panessa et al. 2006) 50% of the SDSS QSO2 candidates with ROSAT observations are consistent with being obscured (see also Zakamska et al. 2004) 8

since 2004 Chandra and XMM-Newton follow-up observations of the optically brightest z=0.390 L X =8.1x10 43 erg/s N H =3.2x10 22 cm -2 z=0.596 L X =7.4x10 44 erg/s N H =5.5x10 22 cm -2 Ptak et al. 2006 9

up to the most recent results Chandra exploratory observations + archival fields (CV, Alexander & Comastri 2006) 4/6 targets detected (3-80 counts, 7-11 ks, F X 10-15 -10-13 erg/cm 2 s) + 6/10 archival/serend detected direct X-ray spectral information for 7 sources N H 10 22 5x10 23 cm -2 Number density of Type 2 QSOs? ρ sdss 0.05 deg -2 vs. 0.15 deg -2 from LDDE models (Gilli et al. 2007) at 0.3<z<0.8 and F 2-10 kev 2x10-13 cgs more complete census of obscured QSO activity in the X-rays? 10

up to the most recent results Chandra exploratory observations + archival fields (CV, Alexander & Comastri 2006) 4/6 targets detected (3-80 counts, 7-11 ks, F X 10-15 -10-13 erg/cm 2 s) + 6/10 archival/serend detected direct X-ray spectral information for 7 sources N H 10 22 5x10 23 cm -2 Number density of Type 2 QSOs? ρ sdss 0.05 deg -2 vs. 0.15 deg -2 from LDDE models (Gilli et al. 2007) at 0.3<z<0.8 and F 2-10 kev 2x10-13 cgs more complete census of obscured QSO activity in the X-rays? 10

up to the most recent results Chandra exploratory observations + archival fields (CV, Alexander & Comastri 2006) 4/6 targets detected (3-80 counts, 7-11 ks, F X 10-15 -10-13 erg/cm 2 s) + 6/10 archival/serend detected direct X-ray spectral information for 7 sources N H 10 22 5x10 23 cm -2 Number density of Type 2 QSOs? ρ sdss 0.05 deg -2 vs. 0.15 deg -2 from LDDE models (Gilli et al. 2007) at 0.3<z<0.8 and F 2-10 kev 2x10-13 cgs more complete census of obscured QSO activity in the X-rays? 10

Compton-thick quasars? possibility that the X-ray faintest Type 2 QSOs and those undetected hide Compton-thick quasars (see also Ptak et al. 2006) needs further checks and larger samples with sensitive X-ray observations to probe the X-ray weak Type 2 quasar population (e.g., through stacking analysis) approved 12 further QSO NEXT candidates in Chandra AO8 average properties from stacking analysis for the X-ray weak sources (limited at present by the paucity of counts) stacked X-ray spectra in different N H bins to search for faint spectral features (e.g., Alexander et al. 2005) 11

Compton-thick quasars? possibility that the X-ray faintest Type 2 QSOs and those undetected hide Compton-thick quasars (see also Ptak et al. 2006) needs further checks and larger samples with sensitive X-ray observations to probe the X-ray weak Type 2 quasar population (e.g., through stacking analysis) approved 12 further QSO NEXT candidates in Chandra AO8 average properties from stacking analysis for the X-ray weak sources (limited at present by the paucity of counts) stacked X-ray spectra in different N H bins to search for faint spectral features (e.g., Alexander et al. 2005) 11

Chandra and XMM-Newton confirm the presence of a population of SDSS obscured quasars (following the selection by Zakamska et al. 2003) X-ray brightest Type2 QSOs: peak of the iceberg of the SDSS Type 2 QSO population, where many are either Compton-thick or intrinsically X-ray faint or highly variable population: weak in the X-rays (X-ray quiet state) but still luminous in [OIII]? 12

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback