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AA Physical Model for thePhysical Model for theRevised Revised BlazarBlazar
SequenceSequence
Justin Finke and CharlesDermer
US Naval ResearchLaboratory
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Blazar Sequence - synchrotron component
Fossati et al. (1998)
Synchrotron peak luminosity vssynchrotron peak frequency
5 GHz luminosity vs synchrotronpeak frequency
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Previous work
Giommi et al. (2011) arXiv:1108.1114
Peaks from fit to Swift / Planck data byGiommi et al. (2011).
“L” shape seen.
Note: y-axis is synchrotron peak +Compton peak.
But upper right may be filled in with BLLacs with unknown redshift.
“L” (or “V”) shape also seen by Nieppola etal. (2006), Meyer et al. (2011)
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Explanation
Ghisellini et al. (1998)
External radiation field for Comptonscattering correlates with powerinjected into electrons.
As power increases, greater externalradiation field leads to greater Comptonscattering, and hence more Comptondominance.
At the same time, the greater scatteringcools the electrons more, leading to alower cooling break energy.
The peak frequency is directly relatedto this cooling break energy.
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Calculating the synchrotron peak
Abdo et al. (2010; CA: P. Giommi; M. Mazziotta; A. Tramacere) fit LBASblazars to determine peak frequencies and luminosities:
They provided empirical formulae for finding the peak frequency based onoptical, radio, and X-ray data (αro, αox).
The 2LAC provides peak synchrotron frequency for sources with enough datausing these formulae.
Can also use Abdo et al. (2010) empirical formula to calculate peak flux(normalized to 5 GHz flux density):
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Can use this to create the blazar sequence from the 2LAC.
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5 GHz diagram
Lack of a “V” shape, anti-correlation is more clear.Explanation?
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5 GHz diagram
Simple explanation: as synchrotron bump moves to higher frequencies, radioflux will decrease (e.g., Lister et al. 2011).
A physical effect, or a result of the way the peak frequency is calculated?7
ν
νFν
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2LAC blazar sequence
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Gamma-ray selected sample2LAC “Clean sample” with:• known redshifts• enough measurements for well-defined synch peak.• ~ 350 sources• “V” shape seen
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Correlations
Spearman and Kendall Rank Coefficients
Can objects with unknown z ruin thisanti-correlation?
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High-Energy Component
Fitting the high-energycomonents of blazars in theLBAS sample, Abdo et al.(2010) found a relationshipbetween the LAT spectralindex and peak frequency ofthe Compton component:
This can be used to calculatethe peak Compton frequencyfor the 2LAC sample.
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High-Energy Component
Once the peak frequency isknown, the power law can beextrapolated to find the peakCompton luminosity.
~10% of the 350 sources inour sample are also in the 58month Swift-BAT catalog. Forthese objects their BATspectra were also used toconstrain the Compton peak.
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For the LBAS, LpkC from the fit (Abdo et al.
2010) and from the extrapolation:
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Compton Dominance
Compton dominance doesnot depend on redshift.
Sources with unknownredshifts are also plotted.
Compton dominance:definitely an anti-correlation, and an “L”shape.
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Correlations
Unknown z -> z=0
Unknown z -> z=0.35
Unknown z -> z=4.0
Spearman and Kendall Rank Coefficients
Objects with unknown redshift do notdestroy the correlation!
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A Little Theory
Inject electrons as power lawbetween two electron energies:
Equilibrium solution, injectionbalanced with escape and injectionslow cooling solution, γ1 < γc :
fast cooling solution, γc < γ1 :
γc
γ2 N(γ)
N(γ) ∼ γ−q
N(γ) ∼ γ−q-1
γ1
γ2 N(γ)
N(γ) ∼ γ−2N(γ) ∼ γ−q-1
γ2γ1
γc γ2
Slow cooling, peak associatedwith cooling break
Fast cooling, peak associatedwith minimum injection break
See, e.g., Boettcher & Dermer (2002) 14
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Scale injected electrons:
Scale injected Lorentz factorwith power:
Scale injected magnetic fieldwith power:
A Little Theory
Scale external radiation fieldwith power:
Peak frequency is associated with max(γc,γ1).
γc depends on power, but γ1 does not,presumably.
Once γc is less than γ1 , synchrotron peakluminosity will be roughly independent ofpeak frequency.
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So we assume blazars are twoparameter engines: θ, l
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Reproducing Blazar Sequence
A clever choice of parameters can reproduce the “V”shape in the Lpk-νpk diagram
γc < γ1
γ1 < γc
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low l
high l
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Reproducing Blazar Sequence
A clever choice of parameters can reproduce the “V”shape in the Lpk-νpk diagram
Decreasingangle
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Reproducing Blazar Sequence
A clever choice of parameters can reproduce the “V”shape in the Lpk-νpk diagram
Γ2uext < uB
uB < Γ2uext
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Reproducing Blazar Sequence
A clever choice of parameters can reproduce the “V”shape in the Lpk-νpk diagram
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Possible change inγ1 could explainmore sources
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Reproducing Blazar Sequence
γc < γ1
γ1 < γc
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It can also reproduce the “L” shape on the AC-νpkdiagram
low l
high l
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Reproducing Blazar Sequence
δ2uext < usySSC dominates
usy < δ2uext
EC Dominates
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It can also reproduce the “L” shape on the AC-νpkdiagram
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Summary
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• Blazar sequence generated from the 2LAC (Lpk-νpk and AC-νpk ).
• Largest sample yet for Compton Dominance plot.
• Blazars with unknown z could ruin Lpk-νpk anti-correlation, but not AC-νpk anti-correlation.
• Standard cooling scenario seems to explain “V” and “L” shapes on Lpk -νpk andAC-νpk diagrams if νpk is associated with the maximum of γc and γ1.
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Extra slides
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Gamma-ray Component
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Compton dominance vssynchrotron peak frequencyEGRET era, ~ 30 sources
Compton dominance = γ-raydominance = Lpk,C / Lpk,sy
Fossati et al. (1998)
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Other works
Meyer et al. (2011)“V” shape (or “L” shape)
Intermediate SED shapesdon’t appear common.
Meyer et al. explain this asdue to viewing angle effectsin stratified jets.
Other recent works havesimilar “V” or “L” shape: e.g.,Nieppola et al. (2006),Giommi et al. (2011).
But upper right may be filledin with BL Lacs withunknown redshift (Giommi etal. 2011).
Meyer et al. (2011)
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Nieppola et al. (2006)
Other works
Nieppola et al. (2006) fitBL Lacs with log-parabola to locatesynchrotron peaks
They also found “V” or“L” shape.
Problems with fittingwith log-parabolaversus third-orderpolynomial?
Also, no FSRQsincluded.
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2FGL J0059.2-0151(1RXS 005916.3-015030)and2FGL J0912.5+2758(1RXS J091211.9+27595)
Hardest sources in 2LAC,also large error bars. Whenpropagating errors inspectral index, AC isconsistent with 1, withinerror bars.
Outliers