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AGN feedback in action: constraints on the scaling relations between BH and galaxy at high redshift Andrea Merloni (EXC, MPE) A. Bongiorno (MPE), COSMOS.

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Presentation on theme: "AGN feedback in action: constraints on the scaling relations between BH and galaxy at high redshift Andrea Merloni (EXC, MPE) A. Bongiorno (MPE), COSMOS."— Presentation transcript:

1 AGN feedback in action: constraints on the scaling relations between BH and galaxy at high redshift Andrea Merloni (EXC, MPE) A. Bongiorno (MPE), COSMOS + zCOSMOS teams

2 Outline Co-evolution of stellar and SMBH mass densities: integral constraints Scaling relations in high redshift AGN (COSMOS/zCOSMOS) Future prospects

3 Simultaneous growth of BH and galaxies Fabian and Iwasawa (1999)  ~0.1; Elvis, Risaliti and Zamorani (2002)  >0.15; Yu and Tremaine (2002)  >0.1; Marconi et al. (2004) 0.16>  >0.04; Merloni, Rudnick, Di Matteo (2004) 0.12>  >0.04; Shankar et al. (2007)  ~0.07 BHAR(z) = 1) AGN LF 2) Local BH mass density 3) Local scaling relation and their evolution 4) Link to the Hubble sequence evolution?

4 Parallel lives See Merloni, Rudnick, Di Matteo (2004)

5 Parallel lives Merloni, Rudnick, Di Matteo (2004); Hopkins et al. (2006) Mild evolution ~ (1+z) 0.4  BH /  * = 0.0015

6 Parallel lives Merloni, Rudnick, Di Matteo (2004); Hopkins et al. (2006) Very weak constraints on disk-spheroid ratio evolution

7 AGN in the COSMOS

8 COSMOS survey HST/XMM/Chandra COSMOS [Scoville, Hasinger, Elvis] ● 2 deg 2 equatorial ● HST treasury project ● Deep: ACS i AB < 27 ● Similar volume as SDSS, but fainter and higher z

9 Type-1 AGN in the zCOSMOS survey Measure BH mass using “virial” relation applied to MgII (1<z<2.2) 89 AGN Merloni, Bongiorno et al. 2010 Log M BH =6.8 Log[FWHM 1000 2 L 3000 0.47 ]

10 The REAL problem: How to obtain reliable host galaxy masses in Type I AGN? Credit: Dr. John Hutchings,Dominion Astrophysical Observatory, NASA HST image of PG 1229+204 (z=0.064)

11 Unveiling AGN hosts through SED fitting AGN templates: - Richards et al. (2006) - E(b-v)=0 - 0.3 Galaxy templates: - 14 phenomenological Polletta (2007) - Libr. of synthetic sp. (Bruzual & Charlot) a) 10 declining SFH SFR µe-t/t t=[0.1-30] Gyr tage=[50Myr-5 Gyr] tage<tuniv(z) 0 < E(B-V) <0.5 b) 1 constant SF 14 Bands Used 6 SUBARU bands I + K band (CFHT) 4 Spitzer/IRAC 24mm Spitzer/MIPS Merloni, Bongiorno et al. 2010

12 Host Galaxy properties I

13 Host Galaxy Properties II Cumulative probability distribution for SFR and total stellar mass of the HG SFR= 50 M * /yr M * ~10 10.8 Our Host Galaxies are likely actively Star Forming objects Kauffmann et al. (2003); Brammer et al. (2009); Silverman et al. (2009)

14 Scaling relations at 1<z<2 Solid line (+scatter): M BH -bulge relations, z=0 (Graham et al. 2007; Haring & Rix 2004) Merloni, Bongiorno et al. 2010

15 Redshift evolution of the M BH -M * relation Evolution in the Normalization?  M BH /M *  (1+z) 0.7  0.1 +0.6 -0.3 Merloni, Bongiorno et al. 2010

16 Redshift evolution of the M BH -M * relation Evolution in the normalization? cyan lines: Luminosity Bias (Lauer+07) 0.7 dex 0.3 dex Evolution in the scatter? Significant mismatch between the typical growth times of BH and host galaxies Merloni, Bongiorno et al. 2010

17 Future tests of “Luminosity bias” for M BH <10 8 Expected bias minimal

18 A consistent picture? > Bennert et al. 2009 Decarli et al. 2009

19 Selection, selection, selection Lamastra et al. (2010)

20 Flow patterns in the M BH -M * plane Solid line (+scatter): M BH -bulge mass relation, z=0 (Haring & Rix 2004)

21 Flow patterns in the M BH -M * plane Solid line (+scatter): M BH -bulge mass relation, z=0 (Haring & Rix 2004)

22 Solid line (+scatter): M BH -bulge mass relation, z=0 (Haring & Rix 2004) Flow patterns in the M BH -M * plane

23 Future prospects Thanks to P. Rosati (ESO)

24 AGN-galaxy co-evolution is evident in integrated quantities (masses and SFR/BHAR densities) No strong evolution of from integral constraints The most rapidly growing black holes (QSOs at 1<z<4) show an offset from the local scaling relation: for a given host BHs appear to be bigger than at z=0 This could be due to (moderate) evolution in either normalization and/or scatter in the Magorrian relation Strong Co-evolution and Simplest “Explosive” feedback models fail to reproduce the data. Predictions about evolution of scatter are crucial Need BH mass estimators in (mildly) obscured AGN!! Conclusions

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