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AGN Feedback:Are Radio AGN Powered by Accretion or Black Hole
Spin?Brian McNamara
University of Waterloo
COSPAR, Bremen 2010
Perimeter Institute for Theoretical PhysicsHarvard-Smithsonian Center for Astrophysics
P. Nulsen (CfA), M. Wise (ASTRON), C. Carilli (NRAO), D. Rafferty, L. Birzan (Leiden)M. Rohanizadegan, C. Kirkpatrick, K. Cavagnolo (UW), A. Edge (Durham), and others.
Optical, radio, X-ray
MS0735.6+7421
E = 1062 erg
1’ = 200 kpc
McN + 05,09Gitti + 07
Z = 0.2
X-ray Cavities
Pjet = 3x1046 erg s-1
.
1’
Chandra LP 500 ksec Image of MS0735.6+7421
Shock front M=1.31McNamara +10Wise + 10Kirkpatrick + 11
(in prep)
McNamara + 10
!
!
Ecav ="pV
" #1= 2.5pV # 4 pVpV
Nucleus
shock
cavity
accretion, spin
rnuc
• energy & age measured directly• measure mechanical (not synchrotron) power• Radio sources mechanically very powerful
!
tcav = rnuc /vbuoy
!
Eshock " #pV
!
tshock
" rshock
/cs
1) cavity
2) shock
!
Etot = Ecav + Eshock + (Ephoton ) =1055"10
62erg
Measuring Jet Power with X-ray Cavity Dynamics
M ~1.5
McNamara + 00,01; Birzan + 04
Theory: Ruszkowski, Heinz, Bruggen, Begelman, Voit, Churazov, T. Jones, etc.
slow gas motions < cs,gentle heating
Churazov + 01
Low radiative efficiency: Mechanically Dominated
!
Pcavity "Lradio0.7
Lradio (1040 erg s-1)
Pca
v (10
42 e
rg s
-1)
1.4 GHz 200-400 MHz
Cavagnolo + 10Birzan + 04,08
Pcav ~ 100 Lrad
Voigt & Fabian 04
Conditions for AGN-Regulated Feedback Loop
1) tcool ~ tcav ~108 yr 2) LAGN ~ Lx 3) Entropy floors
Rafferty et al. 06Birzan et al. 04
Voit & Donahue 05Donahue et al. 06Voit 05
See McNamara & Nulsen 07 ARAA for review
cooling time profiles heating/cooling entropy profiles
What are the consequences?
• AGN feedback energetically able to quench cooling flows• responsible for dearth of big, blue galaxies (downsizing)• mechanical power and ages of extragalactic radio sources• composition of extragalactic, FR I radio sources• Stimulated significant progress in jet (magneto) hydro models
… and more
This talk: Where does AGN power come from; how doesfeedback work?
..using the relatively reliable energetic constraints from X-ray cavities & shock fronts.
See McNamara & Nulsen 2007, ARAA for a review
How are AGN Fueled and Powered?
-- Accretion? cold gas hot gas (Bondi Accretion)
-- Black hole spin requires accretion to tap
Need for accretion at some level key to feedback loop
Radio AGN are mechanically dominated and powerful
Optical, radio, X-ray
MS0735.6+7421
E = 1062 erg
1’ = 200 kpc
McN + 05,09,10Wise + 10Gitti + 07
Good Candidate for Spin Powering
Z = 0.2
What does thisimply about that?
Pjet = 3x1046 erg s-1
M ~ 2-6 Mo yr-1.
dMBH = 6x108 Mo
Mgas <109 Mo
MS0735 z=0.216HST I-band
WIYN R-band + Halpha
O’Dea + 10
UV emission from Star Formation in Molecular-gas-rich BCGs
SFR ~ few to 100 Mo yr-1
Few disk-like structures
Edge & Frayer 2002
Salome & Combes
star formation threshold: tcool ~ 500 Myr
blue
5 x 108 yr
Cool gas & Star formation linked to cooling, X-ray atmospheres
blue
red
X-ray cooling time
Rafferty + 08threshold
Star formation
Cavagnolo + 08 Ha thresholdVoit + 09
Cold Gas Accretion
!
Pjet = "m•
c2
!
" # 0.06 $ 0.42
Mass to energy conversion efficiency depends on spin
BCGs in cooling flows can harbor 109 - 1011 Mo of molecular gas-- Edge, Salome & Combes
H
Jet Power
Mol
ecul
ar g
as m
ass
Jet power vs gas mass: no trend at high power
McN + 10
MS0735
Accretion Efficiency: gas poor/gas rich segregation
Efficiency
Mol
ecul
ar g
as m
ass
powerful AGNgas-poor
global efficiency ofbulges (Haring & Rix)
Gas-richstarbursts
Gas not stripped from galaxies (Kirkpatrick + 09)
McN + 10Nearly 5 decades of spread in accretion efficiency
Herschel
Star formation ==> lower accretion efficiency? gas being consumed by SF? stalled in circumnuclear disks?
rotation?
Edge + 10
Star formation
CO
A1068
Edge & Frayer 04
McN + 04
wind?
A1068: extreme low efficiency system
Hot gas phase Bondi Accretion
If at all, only in low power AGN
Unlikely to be a broadly significant fuel source!
" <<1
0.06 # $ # 0.42
Benson & Babul 09, Merloni & Heinz 08
efficiency depends on spin
(see justification in McN + 10, Rafferty + 06)
Important issue: Bondi underpins nearly all feedback models
Bondi Accretion: most unlikely
Bondi Accretion: basis for most feedback models/simulations
Why Spin?
>1062 erg in maximally spinning, 109 Mo BH
Comparable to thermal energy of surrouding atmosphere
Can be coupled to feedback by accretion
May explain powerful AGN in gas-poor systems
Accretion & Spin Paradigms
hybrid = thick disk + fast spinning hole + ADAF = powerful jet
thin disk + slowly spinning hole = radiation
Can we test this?
!
Lopt "1.7 #1012L$m9
1.27 m•
0.1
%
&
' '
(
)
* *
0.6
Accretion
Not observed
Spin
!
L jet =1046
Bp
104G
"
# $
%
& '
2
m9
2j2
Meier 99
Meier 99
Problem: spin power & accretion power are coupled!
Bp
2"m
•
in BZ-based models
Link to feedback
Cavity constraints on Spin
• MS0735 insufficient fuel topower by accretion alone
•Low nuclear emissionlikely ADAF
!
m
•
crit ~ 0.02
critical accretion
!
j"1
McN + 09, Benson & Babul 09
!
PJet
> Mc2
•
Black hole mass
Jet p
ower
Spin
Assume: all accreting at 2% Ed
Model: Nemmen + 07
Summary
Most powerful AGN in clusters live in gas-poor hosts
Why? Efficient fueling mechanism, or alternative power source
BH spin energetically able: broad range of spin parameter broad range of accretion rate
Bondi accretion: difficulty fueling high power sources
No correlation between jet power and molecular gas mass Transition between radiative flows and RIAFs
!
~ 0.02ME
•
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