Post on 30-Jan-2016
description
Muliti-frequency observations of Blazars
P. Giommi Agenzia Spaziale Italiana
+ many collaborators: Swift team, S. Puccetti, M. Capalbi, M. Perri, D. Gasparrini, E. Cavazzuti, (ASDC), S. Colafrancesco, E. Massaro, P. Padovani.
AGN : Two main categories 1. Dominated by accretion - disk
emission - AP-AGN2. Dominated by Non-Thermal
radiation - jet emission - NT-AGN
Blazars: NT-AGN viewed at a small angle
w.r.t. jet axisRadio Galaxies:NT-AGN viewed at a large angle
w.r.t. jet axisBroad-line radio galaxies (e.g.
3c120) :A combination of AP-AGN and “mis-directed” NT-AGN
Blazars and the AGN paradigm
Two blazar types
FSRQ
BL Lac objects
3C 279 : a Low energy peaked Blazar (LBL)
MKN 421 : a High energy peaked BL Lac (HBL)
All blazars presently known(see poster by Massaro et al.)
Catalog of confirmed literature blazars. Compiled in support to AGILE and GLAST missions
Currently covers
0 < R.A. < 15 hrs : 1449 objects
> 2000 objects when complete (~ end 2007)
Sim
bol-
X e
nerg
y b
an
d
Courtesy of P. Padovani
Sta
rs+
Gala
xie
s (b
lack
bod
y)
AP-A
GN
(acc
reti
on o
nto
SM
BH
)
Rad
io G
ala
xie
s n
on
-th
erm
al em
issi
on
Blazars are the dominantpopulation of extragalactic sources at• Microwave frequencies• Gamma-ray• TeV band
•194 FSRQs•38 BL Lacs•30 Radio galaxies•15 Steep sp. QSO•2 starburst galaxies•2 planetary nebule
•41 unidentified
323 bright sources
The large majority of bright WMAP foreground sources are blazars or radio galaxies
WMAP CMB fluctuation map
Blazars @ -wave frequencies: the 3-year WMAP data
Bright foreground source catalog
Planck will be in a vey similar situation to that of GLAST - LAT(thousands of deteced blazars + contribution to unresolved flux).
All microwave selected blazars are X-ray sources.
2007 A&A, in press
GLAST-LAT - 1 year simulation
- 3,000-10,000 detected blazars- significant contribution to CGB from unresolved
blazars with radio/-wave flux <~ 100 mJy
Simbol-X bandpass
Blazar contribution to CXB and Simbol-X
~10% at 1 keV~30-50% at 80 keV
~20% at 30 keV
€
I = S ⋅dN
dS⋅dS
S min
S max
∫
Swift XRT serendipitous sources in GRBs pointigs :
the “perfect” serendipitous survey ~1 blazar/field expected with radio flux > 10 mJy!
209 deep (4x104-6x105 seconds) GRB exposures analyzed
~15,500 sources detected with positional uncertainty of 4-6 arscecs.
143 fields are at |bII| > 20 : ~11,500 sources
242 radio/X-ray matches (blazar candidates)
Swift XRT serendipitous survey in GRB deep fields:
status as of end of April 2007
Swift J015700.6+085403 :
fx ~5x10-14erg/cm2/s, 122 mJy @ 1.4 GHz
Swift J101724.4+432905: FSRQ, z=1.1735
fx ~6x10-14erg/cm2/s, 197 mJy @ 1.4 GHz
• >200 Swift deep GRB fields available today (>20 sq deg of sky) (300 at the end of 2007)
• 150-200 blazars in radio flux limited sample (f5GHz = 10 mJy)
• 400-500 blazars in X-ray flux limite sample • Extensive multi-frequency data available (in principle) (from GRB follow-up observations)
Radio LogN-LogS to 10 mJy, radio LF + Cosmological evolution Volume-limited X-ray survey to z=0.5 for Lx > 5.e42 erg/s
Tight constraints to microwave, hard-Xray and gamma-ray backgrounds, including a better estimate on the number of absorbed AGN needed to explain the CXB.
Deep Blazars survey in Swift GRB fields
High-power HBLsThe case of BZB J1456+5048
(Z=0.479)
Rosat luminosity ~ 5x1046 erg/s
RosatSDSS data
NVSS
SDSS optical spectrum
High-power HBLsThe case of BZB J1456+5048
(Z=0.479)
A Simbol-X observation of 3C279 with same spectrum as in Jan 2007
and with flux/100 = 6 Crab
A Simbol-X observation of BZB J1456+5048
Conclusions
Blazar population studies in different wavebands will tightly constrain their contribution to the CXB and will better quantify the need for absorbed AGN in CXB synthesis models.
Simbol-X has will greatly improve the statistics of blazars in a very poorly explored energy band and will be a great instrument to study non-thermal emission from accelerated particles in radio galaxies and blazars jets