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START. The population of high-redshift type-2 quasars found in deep Chandra and XMM-Newton surveys The Formation and Early Evolution of Galaxies, Irsee.

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Presentation on theme: "START. The population of high-redshift type-2 quasars found in deep Chandra and XMM-Newton surveys The Formation and Early Evolution of Galaxies, Irsee."— Presentation transcript:

1 START

2 The population of high-redshift type-2 quasars found in deep Chandra and XMM-Newton surveys The Formation and Early Evolution of Galaxies, Irsee Workshop, July 1th 2003 Ingo Lehmann MPE-Garching, Germany

3 Content XMM-Newton Deep Survey in the Lockman Hole & Chandra Deep Field-South Survey XMM-Newton Deep Survey in the Lockman Hole & Chandra Deep Field-South Survey Optical/X-ray properties of the new sources Optical/X-ray properties of the new sources The population of type-2 Quasars The population of type-2 Quasars Summary Summary

4 Collaboration Maarten Schmidt (Caltech) Günther Hasinger, Gyula Szokoly (MPE) Vincenzo Mainieri, Yas Hashimot (MPE) Jaqueline Bergeron (Institut d‘Astroph. Paris) Piero Rosati (ESO) Andy Fabian (Cambridge, UK) Roberto Della Ceca (Osserv. Astron. di Brera) Steve S. Murray (Cambridge, US) Pat Henry (University of Hawaii) Masayuki Akiyama (Subaru) Xavier Barcons (Santander)

5 ROSAT All Sky Survey (N H =5.9 x 10 19 cm -2 ) Lockman Hole Field 106 sources: 3.8  10 -16 cgs 69 sources: 2.1  10 -15 cgs 34 sources: 3.2  10 -15 cgs 0.5-2.0 keV 2.0-4.5 keV 4.5-10 keV ~100 ksec PN/MOS1+2 Soft/Hard/Ultrahard samples: CDF-S HDF-N 12 / 7 sources not detected in the soft band XMM-Newton Deep Survey

6 Comparison ROSAT/XMM ROSAT HRI-PSPC (0.1-2 keV) 1.3 Msec 100 ksec XMM EPIC pn/Mos (0.5-10.0 keV) Flux factor: ~3 (CDFS/HDF-N 1Msec ~ 6 times fainter) (0.5-2.0 keV) Giacconi et al. 2001, Brandt et al. 2001

7 XMM PN+MOS (PV): 100 ksec 0.5-2.0 keV 2.0-4.5 keV 4.5-10 keV Hasinger et al. 2001

8 860 ksec PV+AO1+AO2 0.5-2.0 keV 2.0-4.5 keV 4.5-10 keV Core sample: 213 sources: 1.0  10 -16 cgs 173 sources: 2.7  10 -16 cgs 78 sources: 1.0  10 -15 cgs (253 sources in 0.5-10 keV band)

9 940 ksec exposure ACIS-I 64 arcmin 2 S min = 6*10 -17 0.3-1.0 keV 1.0-2.0 keV 2.0-7.0 keV Giacconi et al., 2001 Giacconi Bergeron Borgani Chen Gilli Gilmozzi Hasinger Lehmann Kellermann Kewley Nonino Norman Rosati Schreier Szokoly Tozzi Zheng Chandra Deep Field-South Survey

10 logN-logS Rosati et al. 02 Chandra Deep Field South (940 ksec) XMM LH 100 ksec Gilli et al., 2001 models HDF North Fluctuations (970 ksec) Miyaji&Griffiths 2002 XMM LH 860 ksec 90-100% of the 0.5-2.0 keV XRB ~60% of the 5-10 keV XRB

11 ROSAT/XMM optical/NIR IDs AGN type1 AGN type2  Cluster/group  Star + unidentified spectroscopy limit 1 f X /f opt = 1 XMM limit spectroscopy limit 1 f X /f opt = 1 + + + + + + + + EROs

12 Photometric redshifts R-K‘>5.0 EROs V R I z JH K H  line z=2.42 Lehmann et al. 2001 (L. Pozzetti) Subaru ICRS* H  line z=2.45 (*PI: M. Akiyama, P. Henry)

13 Optical counterparts type II AGN GAL (log L X =40.2,soft source) type II AGN (log L X ~43.0) type II/Gal (log L X ~42.0) Keck LRIS spectra PI: M. Schmidt

14 DEIMOS Spectroscopy of the 860 ksec Lockman sources 4 masks observed in March 2003

15 360 Mbyte per file DEIMOS – mask Red CCD Blue CCD

16 High-redshift cluster (z=1.13) KECK VIK z=2.57 ARC ERO z=1.13 ERO ERO‘s High-z Cluster Merging? Hasinger et al. 1999 Thompson et al. 2001 Hashimoto et al. 2002 DEIMOS LRIS

17 XMM absorbed AGN spectra AGN type II – intrinsic absorption (10 21 -10 24 cm -2 ) AGN type IAGN type IIFe II K line

18 Colour segregation Lehmann et al. (2001) Mainieri et al. (2002) type-2 AGN show galaxy colours Lockman Hole CDF-S Intrinsic absorption

19 Photon index vs. Intrinsic Abs. Mainieri et al. 2002 AGN type II strongly absorbed Sign for intrinsic absorption in several AGN type I ! 74 (98) sources, counts >70

20 NGC 6240 ROSAT XMM/Chandra AGN model – absorbed AGN (II) Starburst galaxy XMM/Chandra reveal AGN Komossa et al. 2002

21 VLT IDs of CDFS sources 153 spectroscopic redshifts (131 high quality) R<24 sample : 116/155 (~75%) Type-1 :57 Type-2 :67 Gal :26 Star :4 QSO-2 :9

22 CDFS Redshift Distribution 0 2 4 6 8 10 12 14 16 18 20 0123 Redshift Number Most X-ray sources at lower redshift (z<1) Lockman Hole

23 Definition of type-2 Quasars No broad emission lines in the optical/near- infrared spectrum Intrinsic absorption with Hydrogen column densities of N H > 10 22 cm -2 Intrinsic X-ray luminosity L X >10 44 erg s -1 in the 0.5-2.0 keV or in the 2.0-10.0 keV energy bands

24 Pre-XMM/Chandra Era EMSS field z=0.338 Stocke et al. 1982 IRAS 20181-2244 z=0.185 Elizalde, Steiner 1994 ROSAT QSO Survey z=2.350 Almaini et al. 1995 ASCA Lynx field z=0.900 Ohta et al. 1996 Deep ASCA Survey z=0.672 Boyle et al. 1998 ASCA LSS field z=0.653 Akiyama et al. 2001 EMSS z=2.35 Georgantopoulos et al. 1999 No evidence for type-2 Quasars ! broad H  Halpern et al. 1999

25 First high-z type-2 Quasars Stern et al. 2001 Dawson et al. 2002 Norman et al. 2001 HDF-N*CDF-S Lynx field Futher: Crawford et al. 2001, Fabian et al. 2002 Fe K   =0.51  0.27 N H ~10 24 cm -2 R-Ks=2.5 L 2-10 =10 45  0.5 Radio quiet EW K  ~1keV

26 CDF-S type-2 Quasars FHWM< 2000 km/s Szokoly et al. 2003 z=2.940 z=2.562z=3.660 z=3.240

27 X-ray/optical properties of type-2 QSO CDF-S 1 f X /f opt = 1 3 mag fainter in R Type-2 Quasar are ~3 mag fainter than type-1 quasar

28 Fraction of type-2 QSOs CDFS Lockman Hole ~10 %  Significant population!!!

29 Search for low-z type-2 Quasars L X, obs ~5 x 10 44 erg/s

30 XMM-Newton MOS1+2/PN group or cluster pointing PI: M.Watson XX-916-46 Serendipity source

31 EPIC-pn spectrum N h ~2 x10 22 cm -2 Photon index ~1.6 Black body ~0.12 kT flux ~3 x 10 -13 erg s -1 cm -2 (0.5-10 keV) First check! L 0.5-10.0 =10 45 erg/s X-ray bright type-2 Quasar !!!

32 XMM SSC XID proposal Optical identification of ultrahard X-ray sources  Search for X-ray bright type-2 Quasars (z<1) Sample selection: X-ray sources from the XCAT-DB X-ray flux 0.5-4.5 keV > 10 -14 erg s -1 cm -2 (XID-band) Detection likelyhood > 16 HR2 > -0.3, optical counterpart with 3“ in radius |b| > 30 degree, R < 21. m 0  Southern sample consists of 31 objects !

33 Low-z type-2 Quasar candidates Source XID flux [10 -14 cgs] [10 -14 cgs]HR2 z L XID,obs L XID,obs [10 44 erg/s] 3411-0239.8 -0.08  0.13 0.320.48 916-04617.0 -0.23  0.06 0.735.0 1183-816.8 0.08  0.11 0.520.96 1143-1096.4 0.07  0.14 0.671.6 1124-258.2 -0.16  0.06 0.430.79

34 Summary ~90 % of the 2-10 keV X-ray background resolved ~90 % of the 2-10 keV X-ray background resolved Most new XMM sources - ERO‘s (R-K‘> 5.0) Most new XMM sources - ERO‘s (R-K‘> 5.0) XMM hard sources - type II AGN at z<1, power law spectra with significant intrinsic, absorption. XMM hard sources - type II AGN at z<1, power law spectra with significant intrinsic, absorption. Significant population of type-2 Quasars Significant population of type-2 Quasars Important to search for low-z type-2 quasars Important to search for low-z type-2 quasars

35 AGN Space Density Miyaji et al., 2000 ?

36 END

37 X-ray/Sub-mm Correlation Fox et al. 2001 I-band K-band LH850.8 HRI VLA 450mJy AGN type I NELG ERO z~0.9 z~0.7 Extremely hard to identify!

38 LLAGN Luminosity Function! z=0 z>2 Galaxies AGN HST Galaxies @z>2

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