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Transcript
INAF
ISTITUTO NAZIONALE DI ASTROFISICA
NATIONAL INSTITUTE FOR ASTROPHYSICS
The relation among black holes,
their host galaxies and AGN
activity
Alessandro Marconi
INAF-Osservatorio Astrofisico di Arcetri
Galaxies and Structures
through Cosmic Times
Venice, March 26-31, 2006
In collaboration with …
 Andrea Comastri (INAF – Bologna, I)
 Roberto Gilli (INAF – Bologna, I)
 Günther Hasinger (MPE, Garching, D)
 Leslie Hunt (INAF – IRA, Firenze, I)
 Roberto Maiolino (INAF – Arcetri, Firenze, I)
 Guido Risaliti (INAF – Arcetri, Firenze, I)
 Marco Salvati (INAF – Arcetri, Firenze, I)
Supermassive Black Holes
 Supermassive BHs (106-1010 M) are detected in
30-40 NEARBY (D<100 Mpc) galaxies (e.g.
Ferrarese & Ford 2005).
 MBH correlates with Lsph/Msph (Kormendy &
Richstone 1995, Magorrian et al. 1998, McLure & Dunlop
2002, Marconi & Hunt 2003) and σe (Ferrarese & Merritt
2000, Gebhardt et al. 2000).
 Supermassive BHs likely present in all galaxies.
 Supermassive BHs are also expected as “Relics”
of AGN activity.
 Are the local supermassive BHs consistent with
being AGN relics?
The Relation between Local
Black Holes and AGN relics
 Compare the mass density of local
BHs with that of AGN relics (e.g. Soltan
1982, Fabian & Iwasawa 1999, Elvis, Risaliti
& Zamorani 2002)
 Compare the local BH Mass Function
with the mass function of relic BHs
(e.g. Yu & Tremaine 2002, Ferrarese 2002,
Marconi et al. 2004, Merloni 2004, Shankar
et al. 2004)
The Local BHMF from MBH – Lbul/σe
Galaxy
Luminosity Function
per Morphological Type
+ Bulge/Total correction
Bulge (Spheroid)
Luminosity Function
+ Faber-Jackson
relation
Galaxy
Velocity Function
(SDSS, Sheth et al. 2003)
+ MBH-σe relation
+ MBH-Lbul relation
Black Hole Mass Function
e.g. Salucci et al. 1998,
Marconi & Salvati 2001
e.g. Ferrarese 2002,
Aller & Richstone 2003
e.g. Yu & Tremaine 2002,
The local Black Hole Mass Function
 Using MBH-Lbul and MBH-σe
provide consistent BH mass
functions (differences included
in shaded area which indicates
uncertainties)
 ρBH ≃ 4.1+1.9-1.4 ×105 M Mpc-3
(cf. Merritt & Ferrarese 2001,
Ferrarese 2002, Shankar et al.
2004)
 In summary: 3-5 ×105 M Mpc-3
(see Ferrarese & Ford 2005 for a
review)
The AGN BH Mass Function
 Assume accretion onto BH as powering mechanism
of AGN to link LAGN with MBH
[L= λ MBHc2/tE= ε (dM/dt)c2]
 Use the continuity equation (Cavaliere et al. 1971)
to relate the BH Mass function N(MBH) to the AGN
Luminosity function Φ(L)
 Critical issues:
 L is the TOTAL accretion luminosity
 Φ(L) is the luminosity function of ALL AGNs (observations
provide Φ only for a subset of the AGN population)
Local BHMF vs Relics BHMF
 The relic BHMF is a
function of the band
in which AGN are
selected.
 Even the hard (2-10
keV) XLF does not
sample the whole
AGN pop
Hard-X LF
Soft-X LF
 Heavily obscured
Compton-thick AGN
are missing
X-ray background
spectrum
Qso LF
X-ray Background constraints
 XRB models provide the
total numbers of
Compton-thin + Comptonthick AGN
 Two options explored:
 M1: R =
obscured/unobscured
AGN ratio = constant
 M2: R decreasing with
luminosity
Gilli, Comastri, Hasinger 2006 in prep.
Local BHMF vs Relic BHMF
 Correction for
Compton-Thick
sources from XRB
models  whole
AGN pop considered
 The only free
parameters are the
accretion efficiency
and Eddington ratio
 Assume:
 ε=0.1 (L= ε dM/dt c2)
 λ=1 (L= λ LEdd)
Radiative Efficiency and
Fraction of Eddington luminosity
 Efficiency and fraction of
Eddington luminosity are
the only free parameters!
 Determine locus in ε-λ
plane where there is the
best match between local
and relic BHMF!
 ε=0.04-0.10 λ=0.08-0.5
which are consistent with
common ‘beliefs’ on AGNs
Local BHMF vs Relic BHMF
 Local and Relic BHMFs are
in agreement without
considering merging.
 Either merging of BHs is
negligible for z<3 or it
does not modify
significantly the BHMF
(e.g. Granato et al. 2004,
Menci et al. 2004,
Haiman, Ciotti & Ostriker
2004).
with best ε and λ values …
Anti-Hierarchical BH growth
50% of final mass
 This is qualitatively
consistent with models of
galaxy formation (e.g.
Menci et al. 2003, Granato
et al. 2003)
 Big BHs form in deeper
potential wells  they
form first.
 Smaller BHs form in
shallower potential wells
and are more subjected to
feedback effects (star
form., AGN),  they form
later and take more time
to grow.
 See also Merloni 2004.
Conclusions
 The local BH mass density is ρBH = 4.1±1.5 ×105 M Mpc-3.
 The local BH mass function and the BH mass function of AGN
relics are in good agreement with standard ε and λ values (ε ~
0.1, λ ~ 1.0).
 Merging of BH’s either is not important or it does not
significantly alter the relic BHMF, at least at z<3.
 The BH growth is anti-hierarchical: smaller BH’s, MBH< 107 M,
grow at lower redshifts, z<1, with respect to more massive
ones, z=1-3.
 Local BH's grew during AGN phases in which accreting matter
was converted into radiation with ε = 0.04-0.1 and emitted at
a fraction λ = 0.08-0.5 of the Eddington luminosity.
Marconi et al. 2004, 2006 in preparation