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The Fermi blazars divide

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Title: GRBs: open issues Author: Gabriele Created Date: 4/25/2004 2:16:39 PM Document presentation format: Presentazione su schermo Other titles: Arial Comic Sans MS ... – PowerPoint PPT presentation

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Title: The Fermi blazars divide


1
The Fermi blazars divide
Gabriele Ghisellini Osservatorio Astronomico di
Brera In collaboration with L. Maraschi and F.
Tavecchio
2
Bright Fermi blazars
  • gt100 with gt10s detection
  • 57 FSRQs and 42 BL Lacs
  • Redshift for all FSRQs and for 30 BL Lacs

3
FSRQs
TeV
g-ray energy spectral index ag
There is a sequence
Ghisellini, Maraschi, Tavecchio 2009
BL Lacs
4
despite dramatic variability
Ghisellini, Maraschi, Tavecchio 2009
5
BL Lac
6
Fermi
7
454.3
8
Agile
Fermi
9
0528
10
Fermi
11
279
12
MAGIC
Fermi
13
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14
The blazar sequence
FSRQs
Steep
Lg
Fossati et al. 1998 Donato et al. 2001
BL Lacs
Flat
15
Steep FSRQs
Flat BL Lacs
16
The divide
17
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18
The blazar divide
19
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20
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21
Celotti GG 2008
22
Celotti GG 2008, Maraschi 2008
23
GG, Tavecchio Ghirlanda in prep,
Celotti GG 2008, Maraschi 2008
24
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25
Ledlow Owen
Ghisellini Celotti 2000
26
Ghisellini Celotti 2000
Ledlow Owen
27
Jet power vs disk Lum.
BL Lacs, FSRQ FRI, FRII
Photon trapping
Pjet
Ldisk Pjet
e-p decoupling
Ldisk
10-2
Disk accretion rate (Eddington units)
28
Mgt0.01MEdd
MeV
Far IR
Torus 1-10 pc
BLR
Standard disk
29
Mlt0.01MEdd
TeV
X
TeV
BLR ltlt0.2 pc
ADAF disk
30
Evolution? (e.g. Cavaliere DElia 2002)
  • M should increase with redshift
  • In the past more FSRQs (and FRII) positive
    evolution?
  • Now more BL Lacs (and FRI) negative evolution?
  • And taken together? Similar to radio-quiet or
    not?

31
Conclusions/Predictions
  • The most powerful Fermi blazars should be
    accreting near Eddington, and have the largest
    black hole masses
  • Also radio-quiet should have much weaker broad
    lines for Mlt0.01MEdd
  • As the survey goes on, including weaker sources.

32
smaller M
0948
forbidden except extraordinary and rare states
33
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34
Conclusions/Predictions
  • The most powerful Fermi blazars should be
    accreting near Eddington, and have the largest
    black hole masses
  • Also radio-quiet should have much weaker broad
    lines for Mlt0.01MEdd

35
From Ho, 2008, ARAA.. For radio-quiet 8. Low
luminosity AGNs are not simply scaled-down
versions of powerful AGNs. Their central engines
undergo fundamental changes when the accretion
rate ltlt Eddington. In this regime, the BLR and
obscuring torus disappear 9. Below L0.01
Eddington, the canonical accretion disk
transforms into an inner vertically thick and
radiatively inefficient accretion flow.
36
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37
M
Ljet propto Ldisk
M2
1/2
Ljet propto Ldisk
ADAF (Narayan et al.)
38
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39
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40
By modeling, we find physical parameters in the
comoving frame. gpeak is the energy of electrons
emitting at the peak of the SED
EGRET blazars
41
Low power slow cooling large gpeak
Big power fast cooling small gpeak
42
tcool 1/(gpeak U) R/c
µ
2
g gpeakU const
µ
43
Power of jets
44
The power of blazar jets
G
Lr radiation
Le relat. electrons
Lp protons
LB B-field
R
1017 cm
45
High power
If one p per e-
Relat. electrons
Celotti Ghisellini 2007
Powerful jets are not magnetically dominated
Magnetic Field
Radiation
46
Low power
If one p per e-
Relat. electrons
Celotti Ghisellini 2007
Magnetic Field
Radiation
47
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