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TeV observed IBL and HBL objects (SECTION 3)

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(1)

VER J0521+211 3.44 ± 0.20

(VER09-10,∼ 200 GeV − ∼ 1 T eV )

PKS 1424+240 3.7 × 104 4 × 105 3.8 ± 0.5

st± 0.3sys

(VER09,SSC,z=0.05) (VER09,SSC,z=0.05) (VER09,>140 GeV)

3.7 × 104 4 × 105 5.0 ± 1.7

(VER09,SSC,z=0.1) (VER09,SSC,z=0.1) (MAG09, 150-400 GeV)

3.6 × 104 4 × 105 3.5 ± 1.2

(VER09,SSC,z=0.2) (VER09,SSC,z=0.2) (MAG10, 150-400 GeV)

3.4 × 104 4 × 105 3.9 ± 0.7

(VER09,SSC,z=0.3) (VER09,SSC,z=0.3) (MAG11, 150-400 GeV)

3.2 × 104 4.5 × 105 (VER09,SSC,z=0.4) (VER09,SSC,z=0.4) 3.6 × 104 4 × 105 (VER09,SSC,z=0.5) (VER09,SSC,z=0.5) 3.7 × 104 4 × 105 (VER09,SSC,z=0.7) (VER09,SSC,z=0.7) 0.26 × 103 8.9 × 108 3.2 × 104 1.8 3.9

(MAG09-11, (MAG09-11, (MAG09-11, (MAG09-11, (MAG09-11,

1Z SSC,no radio) 1Z SSC,no radio) 1Z SSC,no radio) 1Z SSC,no radio) 1Z SSC,no radio)

0.016 × 103 0.26 × 105 2.6 × 104 1.7 3.7

(MAG09-11, (MAG09-11, (MAG09-11, (MAG09-11, (MAG09-11,

1Z SSC,with radio) 1Z SSC,with radio) 1Z SSC,with radio) 1Z SSC,with radio) 1Z SSC,with radio)

0.004 × 103 3.2 × 109 5.3 × 104 2 4

(MAG09-11, 1Z SSC (MAG09-11, 1Z SSC (MAG09-11, 1Z SSC (MAG09-11, 1Z SSC (MAG09-11, 1Z SSC

with radio) with radio) with radio) with radio) with radio)

8 × 103 7 × 105 3.9 × 104 2 3.1

(MAG09-11, (MAG09-11, (MAG09-11, (MAG09-11, (MAG09-11,

2Z SSC, inner zone) 2Z SSC, inner zone) 2Z SSC, inner zone) 2Z SSC, inner zone) 2Z SSC, inner zone)

0.6 × 103 0.5 × 105 5.0 × 104 2.04 4.95

(MAG09-11, (MAG09-11, (MAG09-11, (MAG09-11, (MAG09-11,

2Z SSC, outer zone) 2Z SSC, outer zone) 2Z SSC, outer zone) 2Z SSC, outer zone) 2Z SSC, outer zone)

S5 0716 + 714 ∼ 2 × 103 ∼ 7 × 103

(Vittorini09, (Vittorini09,

(2)

index

fast comp.) fast comp.)

104 7 × 105 1.9 × 104 2 4.5 3.45 ± 0.54

st± 0.2sys

(MAG04/08, SSC) (MAG04/08, SSC) (MAG04/08, SSC) (MAG04/08, SSC) (MAG04/08, SSC) (MAG04/08,&180 GeV)

(1.8 ± 0.6 de. Fr., z = 0.26,&180 GeV)

100 3800 ζ1= 2 ζ2= 4.5 (2.1 ± 0.6 de. Pr.,z = 0.31,&180 GeV)

(Vittorini09,2ZSSC , (Vittorini09,2ZSSC (Vittorini09,2ZSSC (Vittorini09,2ZSSC

11/09/07,slow comp.) 11/09/07,slow comp.) 11/09/07,slow comp.) 11/09/07,slow comp.)

3500 7000 ζ1= 2 ζ2= 5

(Vittorini09,2ZSSC (Vittorini09,2ZSSC (Vittorini09,2ZSSC (Vittorini09,2ZSSC

11/09/07,fast comp.) 11/09/07,fast comp.) 11/09/07,fast comp.) 11/09/07,fast comp.)

60 7000 ζ1= 1.8 ζ2= 5

(Vittorini09, (Vittorini09, (Vittorini09, (Vittorini09,

11/09/07,single comp.) 11/09/07,single comp.) 11/09/07,single comp.) 11/09/07,single comp.)

40 4000 ζ1= 2 ζ2= 4.5

(Vittorini09,2ZSSC (Vittorini09,2ZSSC (Vittorini09,2ZSSC (Vittorini09,2ZSSC

23/10/07,slow comp.) 23/10/07,slow comp.) 23/10/07,slow comp.) 23/10/07,slow comp.)

1300 6500 ζ1= 2 ζ2= 5

(Vittorini09,2ZSSC (Vittorini09,2ZSSC (Vittorini09,2ZSSC (Vittorini09,2ZSSC

23/10/07,fast comp.) 23/10/07,fast comp.) 23/10/07,fast comp.) 23/10/07,fast comp.)

30 6500 ζ1= 1.8 ζ2= 5

(Vittorini09, (Vittorini09, (Vittorini09, (Vittorini09,

23/10/07,single comp.) 23/10/07,single comp.) 23/10/07,single comp.) 23/10/07,single comp.)

MAGIC J2001+435

W Comae 30(VER,EC03/08) 3.81 ± 0.35st± 0.34sys

8 × 103 3 × 105 (VER03/2008,&250 GeV)

(VER,SSC+EC06/08) (VER,SSC+EC06/08) 3.68 ± 0.22st± 0.3sys

(VER,06/2008,180 GeV-3 TeV)

3C66A 2.5 × 104 5.0 × 105 4.1 ± 0.4

st± 0.6sys

(SSC,VERSept-Oct08, (SSC,VERSept-Oct08, (VER07-08, 200-500 GeV)

z=0.444) z=0.444) if z=0.444, VER07-08, 200-500 GeV:

6.0 × 103 1.5 × 105 1.5 ± 0.4 (de. Fr.08)

(SSC+EC,VERSept- (SSC+EC,VERSept- if z = 0.41, VER07-08, 200-500 GeV:

(3)

index

Oct08,z=0.444) Oct08,z=0.444) 2.3 ± 0.6 (de. Gil.12)

1.9 ± 0.6 (de. Fin.10) 2.4 ± 0.6 (de. Kn.10) 2.1 ± 0.6 (de. Dom.11) 3.10 ± 0.31st± 0.2sys (MAGAug-Dec07,∼ 100 GeV − ∼ 2 T eV ) 3.64 ± 0.39st± 0.25sys (MAGIC 12/09-01/10,∼ 60− ∼ 700 GeV) if z = 0.444: 2.57 ± 0.68 (MAG12/09-01/10,∼ 60− ∼ 700 GeV,de. Fr.08) 2.61 ± 0.67

(MAG12/09-01/10,∼ 60− ∼ 700 GeV,de. Gil.09) 2.59 ± 0.68

(MAG12/09-01/10,∼ 60− ∼ 700 GeV,de. Dom.10) 2.37 ± 0.70

(MAG12/09-01/10,∼ 60− ∼ 700 GeV,de. Kn.10)

BL Lacertae 1.1 × 103 2.0 × 105 p=2.85 3.6 ± 0.5

(Abdo11,SSC+EC) (Abdo11,SSC+EC) (Abdo11,SSC+EC) (MAG05,150-900 GeV)

600 106 1.4 × 103 2.0 3.8 3.4 ± 0.4

(Abdo11,SSC) (Abdo11,SSC) (Abdo11,SSC) (Abdo11,SSC) (Abdo11,SSC) (VER11,no energy range info)

γcompactmin = 3.0 × 103 γcompact

max = 7.0 × 105 pcompact= 3.5 3.6 ± 0.4

(Abdo11,2Z SSC) (Abdo11,2Z SSC) (Abdo11,2Z SSC) (VER28/06/11,1◦run, flare,∼ 200− ∼ 650 GeV)

γminlarge= 600 γmaxlarge= 3.0 × 104 plarge= 2.4 3.8 ± 0.3

(Abdo11,2Z SSC) (Abdo11,2Z SSC) (Abdo11,2Z SSC) (VER28/06/11,both runs,∼ 200− ∼ 650 GeV)

1ES 1101-232 103(SSC H04-05) 106 (SSC H04-05) 1.8 × 105(SSC, 2 (SSC, 4.3 (SSC, 2.88 ± 0.17 (HESS03/04-06/04,05,∼200GeV-3TeV)

EBLmin H05) EBLmin H05) EBLmin H05) 0.23-4.0 TeV:

3.8 × 105(SSC, 1.5 (SSC, 7 (SSC, 2.94±0.200.21

EBLmax H05) EBLmax H05) EBLmax H05) (Hess 06/2004-03/2005)

1.8 × 105(SSC, 2 (SSC, 3.6 (SSC, 2.94±0.21

0.23

EBLmin H04) EBLmin H04) EBLmin H04) (Hess March 2005)

1.8 × 105(SSC, 1.7 (SSC, 3.6 (SSC, 3.16±0.48

0.61

EBLmax H04) EBLmax H04) EBLmax H04) (Hess June 2004)

(4)

index γmininner jet= 1 γinner jetmax = 6.0 × 105 γbreakinner jet= 2.0 × 105 n1,inner=2.0 n2,inner=4.0 0.23-16.9 TeV:

(Yan2012,SSC for (Yan2012,SSC for (Yan2012,SSC for (Yan2012,SSC for (Yan2012,SSC for 3.10±0.17

0.19

optical and X-ray) optical and X-ray) optical and X-ray) optical and X-ray) optical and X-ray) (Hess 06/2004-03/2005)

γminextended jet= 1 γmaxextended jet= 107 3.08±0.180.21

(Yan2012, (Yan2012, (Hess March 2005)

SSC+IC/CMB/EBL SSC+IC/CMB/EBL 3.45±0.41

0.59

for TeV emission) for TeV emission) (Hess June 2004)

0.23-4.0 TeV (Ah06.de.): 1.51±0.17 0.19 (Hess 06/2004-03/2005) 1.49±0.190.20 (Hess March 2005) 1.70±0.47 0.61 (Hess June 2004) 0.23-7.1 TeV (Ah06.de.): 1.74±0.15 0.17 (Hess 06/2004-03/2005) 1.68±0.16 0.18 (Hess March 2005) 2.19±0.40 0.60 (Hess June 2004)

Kren.08,de. MP2.0+LW+MIR,200 GeV-3 TeV: 1.18 ± 0.20

Kren.08,de. AHA0.65+MIR,200 GeV-3 TeV: 1.29 ± 0.20

Kren.08,de. Fr. 2008,200 GeV-3 TeV: 1.6

Kren.08 deabs. observational evidence, 200 GeV-3 TeV:

1.28 ± 0.20

Belikov10,HESS04-05, de. Fr.08,∼200 GeV-∼3 TeV: 1.72

1ES 1218+304 1 8 × 105 8 × 103 3.0 ± 0.4

(5)

index

(SUZ06) (SUZ06) (SUZ06) (MAG 05,∼70 -∼ 800 GeV)

5 × 105 6 × 104 3.08 ± 0.34

st± 0.2sy

(SSC Ruger10 (SSC Ruger10 (VER07, 160 GeV-1.8 TeV)

with both MAG05 with both MAG05 1.83 ± 0.40

and VER07 data) and VER07 data) (VER07,∼ 200 GeV − ∼ 2 T eV ,de. LHL1.25)

1.30 ± 0.38

(VER07,∼ 200 GeV − ∼ 2 T eV ,de. AHA0.65) 3.01 ± 0.17

(VER08/09 high, no info) 3.12 ± 0.10 (VER08/09 low, no info)

3.07 ± 0.09

(VER08-09 ave.,200 GeV-1.8 TeV)

PKS 2155-304 3.8 × 105 7.5 × 103 1.4 (He03 lep1) 3.2 (He03 lep1) 3.37 ± 0.7 ± 0.10

(He03 lep1) γbr,jet= 2.5 × 103 (Hess03,∼ 200 GeV − ∼ 4 T eV )

(He03 lep1) ≈ 1.5

9.0 × 105 100 × 103 1.7 (He03 lep2) 4.65 (He03 lep2) (Hess03,∼ 200 GeV − ∼ 4 T eV ,de. Ah. 03)

(He03 lep2) γbr,jet= 45 × 103 ≈ 2.3

(He03 lep2) (Hess03,∼ 200 GeV − ∼ 4 T eV ,de. Pr. 01)

5 × 105 300 × 103 1.6 4.5 ≈ 2.8

(He03 lep. de. Phigh) γbr,jet= 45 × 103 (He03 lep. de. Phigh) (He03 lep. de. Phigh) (Hess03,∼ 200 GeV − ∼ 4 T eV ,de. Pr. 04)

(He03 lep. de. Phigh) γp,max∼ 4 × 109

(He03 hadr. de. Prim04)

γp,max∼ 8 × 109 2.5 ± 0.5st± 0.7sys

(He03 hadr. de. Phigh2) (CANG06,∼ 600 GeV − ∼ 1.5 T eV )

γp,max= 1010 1.6 ± 0.5

(He03 hadr. de. Phigh1) (CANG06,de.St.06baseline,∼ 600 GeV − ∼ 1.5 T eV )

1 106 n

1= n2= 2 1.3 ± 0.5

(Kat08,SSCevo+LCTE) (Kat08,SSCevo+LCTE) (Kat08,SSCevo+LCTE) (CANG06,de.St.06fast. evo.)

1 6 × 105 3 × 104 n

1= n2= 4.2 1.8 ± 0.6

(Ghi08,SSC) (Ghi08,SSC) (Ghi08,SSC) (Ghi08,SSC) (CAN06,de. Pr.05,∼ 600 GeV − ∼ 1.5 T eV )

1 2 × 105 5 × 104 n

1= n2= 3.6 3.34 ± 0.05st± 0.1sys

(6)

index

(Ghi08,EC) (Ghi08,EC) (Ghi08,EC) (Ghi08,EC) (HEAug-Sept08,∼ 160 GeV − ∼ 3 T eV )

4 × 102 3 × 105 9 × 103 2 4.7 ≈ 2.5

(Ghi08,needle) (Ghi08,needle) (Ghi08,needle) (Ghi08,needle) (Ghi08,needle) (HE08,de. Ah.06a,∼ 160 GeV − ∼ 3 T eV )

1 × 102 7 × 105 1.5 × 104 2 4.3 3.5 ± 0.2

(Ghi08,jet) (Ghi08,jet) (Ghi08,jet) (Ghi08,jet) (Ghi08,jet) (MAG06,400 GeV-4 TeV)

1 1.8 × 105 1.5 × 104 n

1= n2= 3.5 2.4 ± 0.1

(Ghi08,F07 SSC) (Ghi08,F07 SSC) (Ghi08,F07 SSC) (Ghi08,F07 SSC) (MAG06,400 GeV-4 TeV,de.

1 3.16 × 106 γ

1= 1.4 × 104 p0= 1.3 p2= 4.3 Kn.02 but low fit probab.)

(HE08,SSC) (HE08,SSC) (HE08,SSC) (HE08,SSC) (HE08,SSC) if dN/dE = N0(E/1T eV )−α+βln(E/1T eV )

γ2= 2.3 × 105 p1= 3.2 (MAG06,400 GeV-4 TeV):

(HE08,SSC) (HE08,SSC) α = 2.4 ± 0.2,

40 6.2 × 105 3.1 × 104 2 4 β = −0.5 ± 0.2

(MAG30/07/06,SSC) (MAG30/07/06,SSC) (MAG30/07/06,SSC) (MAG30/07/06,SSC) (MAG30/07/06,SSC) fit probab. 77%

1.0 8.4 × 105 2.6 × 104 1.4 3.9 3.25 ± 0.01 − 3.53 ± 0.07

(CANG08,SSC) (CANG08,SSC) (CANG08,SSC) (CANG08,SSC) (CANG08,SSC) (He29-30Jul06,PL fits,∼ 200 GeV − ∼ 5 T eV )

1 9 × 105 6 × 104 1.8 5 2.60 ± 0.17 − 3.26 ± 0.12

(HE29/07/06 low,SSC, (HE29/07/06 low,SSC, (HE29/07/06 low,SSC, (HE29/07/06 low,SSC, (HE29/07/06 low,SSC, Ecut= 1.0 ± 0.18 − 2.9 ± 1.4 TeV

plasma blob) plasma blob) plasma blob) plasma blob) plasma blob) (He29-30Jul06,PL exp. cut)

n1= n2= 3.53 ± 0.05 − 3.69 ± 0.05

2 × 105 n

jet= 1.7 b = 0.41 ± 0.16 − 1.05 ± 0.20

(HE29/07/06 low,SSC, (HE29/07/06 low,SSC, (He29-30Jul06,log parab.)

extended jet) extended jet) Γ1= 2.73 ± 0.05

1 6 × 105 n

1= n2= 2 Γ2= 3.60 ± 0.04

(HE30/07/06 (HE30/07/06 (HE30/07/06 Ebreak= 0.42 ± 0.02 TeV

Chia-Ghis99, Chia-Ghis99, Chia-Ghis99, (He29-30Jul06,broken PL)

time dep., time dep., time dep., 2.53 ± 0.01 − 2.72 ± 0.07

X-ray source) X-ray source) X-ray source) (He29-30Jul06,PL fits,de. Fr08)

1(HE30/07/06 1 × 106(HE30/07/06 n

1= n2= 2(HE30/07/06 1.61 ± 0.17 − 2.43 ± 0.11

Chia-Ghis99, Chia-Ghis99, Chia-Ghis99, Ecut= 1.00 ± 0.18 − 2.9 ± 1.4 TeV

time dep., time dep., time dep., (He29-30Jul06,PL exp. cut,de. Fr08)

VHE source) VHE source) VHE source) 2.73 ± 0.06 − 2.83 ± 0.07

1 × 103 7.4 × 105 n

blob= 2.5 b = 0.38 ± 0.14 − 1.23 ± 0.20

(HE30/07/06 blob-in-jet, (HE30/07/06 blob-in-jet, (HE30/07/06 blob-in-jet, (He29-30Jul06,log parab.,de. Fr08)

(7)

index

time dep.,plasma blob) time dep.,plasma blob) time dep.,plasma blob) 3.53 ± 0.06

1 4 × 105 n

jet= 2 (HE05-07,quiescent (no July 06),0.2-10 TeV)

(HE30/07/06 blob-in-jet, (HE30/07/06 blob-in-jet, (HE30/07/06 blob-in-jet, 3.56 ± 0.16

time dep.,inner jet) time dep.,inner jet) time dep.,inner jet) (HE05,quiescent,0.2-10 TeV)

3.59 ± 0.08

(HE06,quiescent (no July),0.2-10 TeV) 3.43 ± 0.11

(HE07,quiescent,0.2-10 TeV) 3.53 ± 0.06st± 0.10sys

(HE05-07,mean quiescent state,0.2-10 TeV) 3.99 ± 0.12 (HE28/07/06,MJD53944.87,300 GeV − 2 T eV ) 3.45 ± 0.03 (HE29/07/06,MJD53945.87,300 GeV − 2 T eV ) 3.77 ± 0.05 (HE30/07/06,MJD53946.88,300 GeV − 2 T eV ) 4.24 ± 0.12 (HE01/08/06,MJD53948.02,300 GeV − 2 T eV ) 3.49 ± 0.24 (HE02/08/06,MJD53949.00,300 GeV − 2 T eV ) 3.66 ± 0.13 (HE02/08/06,MJD53949.99,300 GeV − 2 T eV ) 4.21 ± 0.19

(HE04-06/08/06,MJD53951-53 ave.,200 GeV − 2 T eV )

1ES 1440+122 3.4 ± 0.7

(VER08-10,no energy range info)

1ES1959+650 0.006 3.1 × 106 5.5 × 105 2 3 2.83 ± 0.14

st± 0.08sy

(Whi02,SSC) (Whi02,SSC) (Whi02,SSC) (Whi02,SSC) (Whi02,SSC) (HEG02, 1.3 TeV-12.6 TeV,high flux)

0.006 1.55 × 106 2.47 × 105 2 3 3.18 ± 0.17st± 0.08sys

(Whi03,SSC) (Whi03,SSC) (Whi03,SSC) (Whi03,SSC) (Whi03,SSC) (HEG00-02, 1.3 TeV-12.6 TeV,low flux)

1 (MAG06 SSC) 6 × 105 5.7 × 104 2 3.4 2.58 ± 0.18

(MAG06, SSC) (MAG06, SSC) (MAG06, SSC) (MAG06, SSC) (MAG06,150 GeV-3 TeV)

1 × 103 6 × 104 q=1.85

(8)

index

(Bottaccini10,SSC) (Bottaccini10,SSC) (Bottaccini10,SSC) 2.8 - 3.2 (Kraw04, 1-5 TeV

8 × 102 4.5 × 104 q=1.9 from Nishi99,Holder03,Aha03b(HEG00-02))

(Bottaccini10,lept-hadr) (Bottaccini10,lept-hadr) (Bottaccini10,lept-hadr) 2.2-2.6 (Kraw04,de. Kne02, 1-5 TeV)

γp,min= 1 × 103 γp,max= 1.2 × 109 qp= 1.9

(Bottaccini10,lept-hadr) (Bottaccini10,lept-hadr) (Bottaccini10,lept-hadr) 2.72 ± 0.14

γp,max0 = 104(hadr., αp=2 (hadr., (MAG04,180 GeV-2 TeV)

Reimer05,orphan flare) Reimer05,orphan flare)

0.006 3.9 × 106 1.235 × 106 2 3 2.78 ± 0.12

st± 0.21sys

(HE-Wh02,SSC,high) (HE-Wh02,SSC,high) (HE-Wh02,SSC,high flux) (HE-Wh02,SSC,high flux) (HE-Wh02,SSC,high flux) (Whi May 2002 flare,316 GeV − ∼ 10 T eV )

0.006 3.1 × 106 5.5 × 105 2 3 2.82 ± 0.15

st± 0.3sys

(HE-Wh4/6/02,SSC, (HE-Wh4/6/02,SSC1, (HE-Wh4/6/02,SSC, (HE-Wh4/6/02,SSC, (HE-Wh4/6/02,SSC, (Whi June 2002 flare,∼ 500 GeV − ∼ 6 T eV )

orphan flare) orphan flare) orphan flare) orphan flare) orphan flare) if dN/dE = N0e(−E/Ecut)E−Γ:

6.2 × 107 E

cut= 11.2±7.76.6stat TeV

(HE-Wh4/6/02,SSC2, Γ = 2.39 ± 0.26stat

orphan flare) (Whi May 2002 flare,316 GeV − ∼ 10 T eV )

0.006 6.2 × 105 p

1= 2 2.41 ± 0.21

(HE-Wh4/6/02, (HE-Wh4/6/02, (HE-Wh4/6/02, (Whi May 2002 flare,subset1,316 GeV − ∼ 10 T eV )

low cutoff,orphan flare) low cutoff,orphan flare) low cutoff,orphan flare) 2.63 ± 0.15

(Whi May 2002 flare,subset2,316 GeV − ∼ 10 T eV ) 2.63 ± 0.17 (Whi May 2002 flare, rate< 2 min−1subset,316 GeV − ∼ 10 T eV )

2.47 ± 0.14 (Whi May 2002 flare, 2<rate< 4 min−1subset,316 GeV − ∼ 10 T eV )

2.78 ± 0.13 (Whi May 2002 flare, rate> 4 min−1subset,316 GeV − ∼ 10 T eV )

if dNp/dEp∝ E−αp e−Ep/Ep,c:

α=2.83 γp,break= 2.348 × 107 np,1= 2.3 np,2= 2.83 Ep,c=5.0 TeV

(Sahu13,hadr.) (Sahu13,hadr.) (Sahu13,hadr.) (Sahu2013,hadronic,∼1.26-∼9.4 TeV)

H 1426+428 2 (base Kato06 107(base Kato06 p=1.9 (base Kato06 2.6 ± 0.6

st± 0.1sy

before atten.) before atten.) before atten.) (HEGRA 1999-2000,∼ 800 GeV − ∼ 10 T eV )

3 × 104 3 × 107 γ

peak= 4 × 106 s=2.94 1.9

(Cos03,SSC1) (Cos03,SSC1) (Cos03,SSC1) (Cos03,SSC1) (HEG99-00,DEBRAcorrect.,∼ 800 GeV − ∼ 10 T eV )

(9)

index

2 × 104 4 × 107 γ

peak= 5.8 × 106 s=2.82 3.50 ± 0.35st± 0.05sy

(Cos03,SSC2) (Cos03,SSC2) (Cos03,SSC2) (Cos03,SSC2) (Whi2001, ∼ 300 GeV − ∼ 2 T eV )

2 × 104 2 × 107 γ

peak= 1.9 × 106 s=2.60 3.60 ± 0.57

(Cos03,amb1 EC) (Cos03,amb1 EC) (Cos03,amb1 EC) (Cos03,amb1 EC) (CAT98-00, 250GeV-1TeV)

2 × 102 8 × 106 γ

peak= 8 × 106 s=1.80 4.04 ± 0.52

(Cos03,amb2 EC) (Cos03,amb2 EC) (Cos03,amb2 EC) (Cos03,amb2 EC) (CAT98-00, 250GeV-10TeV)

2 × 102 7 × 106 γ

peak= 7 × 106 s=1.80 3.66 ± 0.41

(Cos03,amb3 EC) (Cos03,amb3 EC) (Cos03,amb3 EC) (Cos03,amb3 EC) (CAT98-00, 250GeV-1TeV,

High Flux Subset) 3.55

(Whi2001, 280-390 GeV) 1.5

(HEG99,00,02,,∼ 700 GeV − ∼ 8 T eV ,de. Prim.) 2

(HEG99,00,02,∼ 700 GeV − ∼ 1 T eV , de. Mal.) 3/2

(CATHEG98-00,∼ 200 GeV − ∼ 10 T eV ,de. Prim.) -1

(CATHEG98-00 de. Aha., ∼ 200 − 850 GeV) 2

(CATHEG98-00 de. Aha., 850 GeV − ∼ 10 T eV ) 2

(CATHEG98-00 de. Mal., ∼ 200 GeV − 1.6 T eV ) -1

(CATHEG98-00 de. Mal., 1.6− ∼ 10 TeV) 3.50 ± 0.35st± 0.05sys

(VER 2001,∼300 GeV-∼ 2 TeV)

1ES 2344+514 1.55 × 103 1.55 × 106 1.55 × 105 2.2 3.2 2.54 ± 0.17

st± 0.07sy(in 38 min

(Al07, SSC Whi95flare) (Al07, SSC Whi95flare) (Al07, SSC Whi95flare) (Al07, SSC Whi95flare) (Al07, SSC Whi95flare) 0.8-12.6 TeV, Whi20/12/95 γ-flare)

2.47 × 103 7.8 × 105 1.55 × 105 2.2 3.2 2.66 ± 0.50

st± 0.20sy

(Al07, SSC MAG05) (Al07, SSC MAG05) (Al07, SSC MAG05) (Al07, SSC MAG05) (Al07, SSC MAG05) (140 GeV-5.4 TeV, MAG05 de. Kne.)

196 (VER07) 1.96 × 106(VER07) 3.9 × 105 2.5 3.2 (VER07) 2.95 ± 0.12

st± 0.2sy

(VER07, low) (VER07, low) (140 GeV-5.4 TeV, MAG05)

(10)

index

4.9 × 105 2.3 2.78 ± 0.09

st± 0.15sy

(VER07, flare) (VER07, flare) (VER07, without flare, 390 GeV-8.3 TeV)

1800 (MAG08, 6.3 × 106(MAG08, 10 × 104 (MAG08, 2.5 (MAG08, 3.5 (MAG08, 2.43 ± 0.22

st± 0.2sy

2Z SSC low) 2Z SSC low) 2Z SSC low) 2Z SSC low) 2Z SSC low) (VER07, 07/12/07 flare, 390 GeV-8.3 TeV)

1 or 4000 1.5 × 106(MAG08, 8.0 × 104(MAG08, 2.3 (MAG08, 3.2 (MAG08, ≈ 2.5 (VER07, without

(MAG08, 1Z SSC both) 1Z SSC high) 1Z SSC high) 1Z SSC both) 1Z SSC high) flare, 390 GeV-8.3 TeV, de. Fr.)

550 (MAG08, 1.5 × 106 (MAG08, 3 × 104(MAG08, 2.3 (MAG08, 3.3 (MAG08, ≈ 2.1 (VER07, 07/12/07

2Z SSC high) 2Z SSC high) 2Z SSC high) 2Z SSC high) 2Z SSC high) flare, 390 GeV-8.3 TeV, de. Fr.)

0.7 × 106 (MAG08, 5 × 104(MAG08, 3.4 (MAG08,

1Z SSC low) 1Z SSC low) 1Z SSC low)

Markarian 501 1.0 (MWL96) 1.8 × 106(MWL96) γ

b1= 1.2 × 104 2.6

γb2= 3.7 × 105 (HEG 7 April 1997,800 GeV-10 TeV)

(MWL96) 2.47 ± 0.07 (HEG97,800GeV-10TeV)

5.5 × 106 γ

b1∼ γb2 2.6 ± 0.5

(07/04/97) (April 97 flare) (CT1 HEG96, ' 1.5 TeV)

7 × 106 2.5 ± 0.1 (TAP97, ∼ 631 GeV − ∼ 12.6 T eV )

(16/04/97) 2.67 ± 0.09 ± 0.15

500 (MWL97 low) 3 × 107(MWL97 low) 2.4 (MWL97 low) 3.4 (MWL97 low) (Whi97, LZA, 1.1-10.4 TeV)

500 (MWL97 high) 3 × 107(MWL97 high) 2.225 (MWL97 high) 3.225 (MWL97 high) if the spectrum is curved:

1 (MAG05 low) 5 × 106 105 2 (MAG05 low) 3.2 (MAG05 low) 2.22 ± 0.04st± 0.05sys− (0.47 ± 0.07st) log10(E)

(MAG05 low) (MAG05 low) (Whi97, LZA+SZA, 1.1-10.4 TeV)

1 (VER09) 3.50 × 105(VER09) 2 × 104(VER09) 1.9 (VER09) 3.4 (VER09) 2.8 ± 0.07 (HEG97 CT1,2-12TeV)

1 (30/06/05 MAG) 107(30/06/05 MAG) 5 × 105 2 3.5 2.7 ± 0.2 (HEG97 CT2,2-12TeV)

(30/06/05 MAG) (30/06/05 MAG) (30/06/05 MAG) 2.09 ± 0.09 (HEG97 CT1,2-12TeV,with

1 (MWL06) 1 × 107(MWL06) 6 × 104 (MWL06) 2 (MWL06) 3.9 (MWL06) exponential cutoff

1 3 × 106 3 × 105 1.6 2.6 E

0= 7.16 ± 1.04 TeV

(SSC, Fl. 97, Acc11) (SSC, Fl. 97, Acc11) (SSC, Fl. 97, Acc11) (SSC, Fl. 97, Acc11) (SSC, Fl. 97, Acc11) to improve the fit)

1 3 × 106 7 × 104 1.4 3.6 1.27 ± 0.37 (HEG97 CT2,2-12TeV,with

(SSC, 03/09, Acc11) (SSC, 03/09, Acc11) (SSC, 03/09, Acc11) (SSC, 03/09, Acc11) (SSC, 03/09, Acc11) exponential cutoff

1 (1.86±0.04

0.03) × 106 (8.02±0.010.01) × 104 1.73 3.38 E0= 2.85 ± 0.58 TeV

(03/09, SUZ,Fer, (03/09, SUZ,Fer, (03/09, SUZ,Fer, (03/09, SUZ,Fer, (03/09, SUZ,Fer, to improve the fit)

MAG, VER) MAG, VER) MAG, VER) MAG, VER) MAG, VER)

1 (2.12±0.06

0.05) × 106 (4.88±0.030.03) × 104 1.79 3.16

(11)

index

(Mar-Aug09,Swi, (Mar-Aug09,Swi, (Mar-Aug09,Swi, (Mar-Aug09,Swi, (Mar-Aug09,Swi,

RX,Fer,MAG,VER) RX,Fer,MAG,VER) RX,Fer,MAG,VER) RX,Fer,MAG,VER) RX,Fer,MAG,VER) if exp. cut-off,500GeV-24TeV,

1 (1.61±0.22

0.15) × 106 (5.60±0.020.02) × 104 1.78 3.61 HEG97outburst,Aha99:

(Jul. 2006, KVA, (Jul. 2006, KVA, (Jul. 2006, KVA, (Jul. 2006, KVA, (Jul. 2006, KVA, α = 1.92 ± 0.03st± 0.20sy

Suz, MAG) Suz, MAG) Suz, MAG) Suz, MAG) Suz, MAG) E0= 6.2 ± 0.4st(−1.5 + 2.9)syTeV

1 (2.67±0.08

0.07) × 106 (2.67±0.020.02) × 104 1.73 3.05 if exp. cut-off,TIB97,200GeV-50 TeV:

α ∼= 2.6 Ec= 20 − 30T eV

(15-26/06/98, (15-26/06/98, (15-26/06/98, (15-26/06/98, (15-26/06/98, if exp.cut-off,HEG98-99,0.5-10TeV:

RX,HEG) RX,HEG) RX,HEG) RX,HEG) RX,H α = 2.31 ± 0.22st

1 (3.62±0.060.06) × 106 (1.03±0.010.01) × 104 1.64 2.25±0.020.02 E0= 5.1 ± (7.82.3)stTeV

(27-28/06/98, (27-28/06/98, (27-28/06/98, (27-28/06/98, (27-28/06/98, 2.76 ± 0.08st(HEG98-99,500GeV-10TeV)

RX,HEG) RX,HEG) RX,HEG) RX,HEG) RX,HEG) 2.80 ± 0.27

1 (12.73±0.05

0.05) × 106 (26.72±0.020.02) × 104 1.65 3.00±0.010.01 (TAC06, 1-11 TeV)

(07/04/97, (07/04/97, (07/04/97, (07/04/97, (07/04/97, 2.61 ± 0.15 (VER09,200GeV-2TeV)

Bep,CAT) Bep,CAT) Bep,CAT) Bep,CAT) Bep,CAT) 2.8 ± 0.1 (MWL06,

1 (13.53±13.3

3.3 ) × 106 (30.64±34.930.0) × 104 1.70 2.80 MAGIC,80 GeV-2 TeV)

(11/04/97, (11/04/97, (11/04/97, (11/04/97, (11/04/97, 2.10 ± 0.05

Bep,CAT) Bep,CAT) Bep,CAT) Bep,CAT) Bep,CAT) (Whi09,200GeV-5TeV 1st May flare)

1 (8.85±0.36

0.30) × 106 (55.5±2.11.9) × 104 1.73 2.11±0.010.01 2.72 ± 0.15st± 0.1sy

(16/04/97, (16/04/97, (16/04/97, (16/04/97, (16/04/97, (VER, 24/03/09,200 GeV-2 TeV)

Bep,CAT) Bep,CAT) Bep,CAT) Bep,CAT) Bep,CAT) 2.67 ± 0.21st± 0.20sy

104− 106 (MAG, 23/03/09,200 GeV-2 TeV)

(Zhang13,lept. model) 2.31 ± 0.11

2 1.5 × 108 9.65 × 105 1.86 4.6 (Whi17/04-05/05/09,high flux,200 GeV-5 TeV)

(Zhang13,SSC SED a) (Zhang13,SSC SED a) (Zhang13,SSC SED a) (Zhang13,SSC SED a) (Zhang13,SSC SED a) 2.61 ± 0.11

20 9 × 106 2.56 × 105 2 3.2 (Whi17/04-05/05/09,low flux,200 GeV-5 TeV)

(Zhang13,SSC SED b) (Zhang13,SSC SED b) (Zhang13,SSC SED b) (Zhang13,SSC SED b) (Zhang13,SSC SED b) 2.26 ± 0.06

300 1 × 106 3.56 × 104 2.24 3.72 (VER17/04-05/05/09,high flux,200 GeV-5 TeV)

(Zhang13,SSC SED c) (Zhang13,SSC SED c) (Zhang13,SSC SED c) (Zhang13,SSC SED c) (Zhang13,SSC SED c) 2.48 ± 0.07

900 8 × 105 1.16 × 105 2.64 3.3 (VER17/04-05/05/09,low flux,200 GeV-5 TeV)

(Zhang13,SSC SED d) (Zhang13,SSC SED d) (Zhang13,SSC SED d) (Zhang13,SSC SED d) (Zhang13,SSC SED d) 2.46 ± 0.02

(CAT97, 330 GeV-13 TeV) continues in next page

(12)

index if dΦ/dET eV = Φ0E −(α+βlog10ET eV) T eV : α = 2.24 ± 0.04st± 0.05sy β = 0.50 ± 0.07st

(CAT97, 330 GeV-13 TeV, better than simplePL)

Markarian 421 6.2 7.8 × 105 1.96 × 105 2.05 3.4 3.6 ± 1.0

(Whi03-04,high (Whi03-04,high (Whi03-04,high (Whi03-04,high (Whi03-04,high (HEG CT2,

29/12/94-1Z SSC) 1Z SSC) 1Z SSC) 1Z SSC) 1Z SSC) 05/05/95,> 1 TeV)

6.2 3.25 × 105 4.3 × 104 2.05 3.6 2.56 ± 0.07

st± 0.1sys

(Whi03-04,low, (Whi03-04,low, (Whi03-04,low (Whi03-04,low (Whi03-04,low (Whi, 07/05/96

1Z SSC) 1Z SSC) 1Z SSC) 1Z SSC) 1Z SSC) flare, > 500 GeV)

6.2 6.95 × 105 1.87 × 105 2.05 3.4 3.09 ± 0.07st± 0.10sys

(Whi03-04,medium (Whi03-04,medium (Whi03-04,medium (Whi03-04,medium (Whi03-04,medium (HEG97/98, 500 GeV-7 TeV)

1Z SSC) 1Z SSC) 1Z SSC) 1Z SSC) 1Z SSC) For HEG97/98, 500 GeV-7 TeV

6.2 6.2 × 106 6.2 × 105 2.0 3.0 good fit also with exp. cutoff:

(Whi03-04,high (Whi03-04,high (Whi03-04,high (Whi03-04,high (Whi03-04,high dN/dE ∝ (E/T eV )−αexp(−E/E

0)

multiZ SSC,zone1) multiZ SSC,zone1) multiZ SSC,zone1) multiZ SSC,zone1) multiZ SSC,zone1) α = 2.5 ± 0.4st

6.2 7.8 × 105 1.96 × 105 2.0 3.0 E

0= 2.8 ± (2.00.9)stTeV

(Whi03-04,high (Whi03-04,high (Whi03-04,high (Whi03-04,high (Whi03-04,high HEG97/98,30◦< ZA < 45,1-5 TeV:

multiZ SSC,zone2) multiZ SSC,zone2) multiZ SSC,zone2) multiZ SSC,zone2) multiZ SSC,zone2) 3.16 ± 0.3st

6.2 6.2 × 105 1.96 × 105 2.05 3.4 3.03 ± 0.08

st± 0.10sys

(Whi03-04,high (Whi03-04,high (Whi03-04,high (Whi03-04,high (Whi03-04,high (HEG April98, MWL,500GeV-6TeV)

multiZ SSC,radioZ) multiZ SSC,radioZ) multiZ SSC,radioZ) multiZ SSC,radioZ) multiZ SSC,radioZ) 2.54 ± 0.04 ± 0.1

6.2 1.96 × 105 1.96 × 104 2.05 3.4 (Whi, SZA, 07/05/96,200 GeV-9 TeV)

(Whi03-04,high (Whi03-04,high (Whi03-04,high (Whi03-04,high (Whi03-04,high 2.45 ± 0.10 ± 0.1

multiZ SSC,opticalZ) multiZ SSC,opticalZ) multiZ SSC,opticalZ) multiZ SSC,opticalZ) multiZ SSC,opticalZ) (Whi, SZA, 15/05/96,200 GeV-9 TeV)

∼ 105 n

1= n2= 1.7 2.52 ± 0.18 ± 0.15

(CAT01, (CAT01, (Whi95, LZA, 1.5-10.4 TeV)

standard SSC) standard SSC) 2.54 ± 0.03 ± 0.10

1.6 × 105 n

1= n2= 1.5 (Whi95-96, LZA+SZA, 260GeV-10TeV)

(CAT01,SSC (Whi05-06,SSC) 4.0 ± (0.9

0.6)st± 0.3sys

steady state, (CANII 2001, > 10 TeV)

relativistic if dN/dE ∝ E−α× exp(−E/E

0):

(13)

index

injection) α = 1.89 ± 0.04st± 0.05sys

7.6 × 104 (Whi00-01,high,380GeV-8.2TeV)

(CAT01,SSC α = 2.72 ± 0.11st± 0.05sys

steady state, (Whi00/01,low,380GeV-8.2TeV)

low X-ray) E0= 4.3 ± 0.3st(−1.4 + 1.7)sys TeV

11.4 × 104 (Whi00/01,380GeV-8.2TeV)

(CAT01,SSC if dN/dE = N0(E/T eV )−αexp(−E/E0):

steady state, α = 2.39 ± 0.09st

high X-ray) E0= 3.8(+5 − 1)st(+0.9 − 0.8)sys TeV

0.196 7.8 × 105 1.55 × 105 2.31 3.88 (HEG99/00,800GeV-11TeV)

(MAG04-05,SSC) (MAG04-05,SSC) (MAG04-05,SSC) (MAG04-05,SSC) (MAG04-05,SSC)

4 × 103 1.3 × 106 3.6 × 105 2.22 4.5

(MAG-VER08,period 1, (MAG-VER08,period 1, (MAG-VER08,period 1, (MAG-VER08,period 1, (MAG-VER08,period 1,

SSC) SSC) SSC) SSC) SSC)

4 × 103 1.3 × 106 4.2 × 105 2.1 5

(MAG-VER08,period 2, (MAG-VER08,period 2, (MAG-VER08,period 2, (MAG-VER08,period 2, (MAG-VER08,period 2,

SSC) SSC) SSC) SSC) SSC)

(1.05 ± 0.18) × 107 (2.6 ± 0.9) × 104 1.49 ± 0.19 3.77 ± 0.11

(Mank11,state1,SSC) (Mank11,state1,SSC) (Mank11,state1,SSC) (Mank11,state1,SSC) 3.24 ± 0.69

(4.1 ± 1.1) × 106 (2.4 ± 0.9) × 104 1.5 ± 0.3 3.62 ± 0.14 (TIB01, 1-5 TeV)

(Mank11,state2,SSC) (Mank11,state2,SSC) (Mank11,state2,SSC) (Mank11,state2,SSC) 2.84 ± 0.58

(7 ± 5) × 107 (7 ± 3) × 104 2.05 ± 0.10 4.8 ± 0.3 (Whi03-04,low,&260 GeV)

(Mank11,state3,SSC) (Mank11,state3,SSC) (Mank11,state3,SSC) (Mank11,state3,SSC) 2.71 ± 0.15

(8.2 ± 1.7) × 106 (4 ± 2) × 104 1.8 ± 0.3 4.11 ± 0.13 (Whi03-04,medium,&260 GeV)

(Mank11,state4,SSC) (Mank11,state4,SSC) (Mank11,state4,SSC) (Mank11,state4,SSC) 2.60 ± 0.11

(2.4 ± 0.3) × 107 (4.5 ± 1.9) × 104 1.7 ± 0.3 4.3 ± 0.180 (Whi03-04,high,&260 GeV)

(Mank11,state5,SSC) (Mank11,state5,SSC) (Mank11,state5,SSC) (Mank11,state5,SSC) with a cutoff

(1.8 ± 0.4) × 106 (1.9 ± 0.6) × 104 1.54 ± 0.11 4.37 ± 0.09 E

0=4.96 TeV:

(Mank11,state6,SSC) (Mank11,state6,SSC) (Mank11,state6,SSC) (Mank11,state6,SSC) 2.73 ± 0.56

(7 ± 2) × 106 (8 ± 6) × 104 1.7 ± 0.4 4.23 ± 0.20 (Whi03-04 cutoff,low,&260 GeV)

(Mank11,state7,SSC) (Mank11,state7,SSC) (Mank11,state7,SSC) (Mank11,state7,SSC) 2.40 ± 0.18

(1.6 ± 0.4) × 107 (5 ± 2) × 104 1.5 ± 0.2 4.22 ± 0.14 (Whi03-04 cutoff,medium&260 GeV)

(Mank11,state8,SSC) (Mank11,state8,SSC) (Mank11,state8,SSC) (Mank11,state8,SSC) 2.11 ± 0.14

(14)

index

(1.1 ± 0.4) × 107 (8 ± 9) × 104 1.6 ± 0.5 3.9 ± 0.2 (Whi03-04 cutoff,high&260 GeV)

(Mank11,state9,SSC) (Mank11,state9,SSC) (Mank11,state9,SSC) (Mank11,state9,SSC) if dN/dE = Φ0× E−α−β×log10E/1T eV:

α = 2.81 ± 0.09st± 0.07sys

7.8 × 103 2.47 × 106 3.9 × 105 2.4 4.3 β = 0.79 ± 0.27

st± 0.03sys

(HAG10,state1,SSC) (HAG10,state1,SSC) (HAG10,state1,SSC) (HAG10,state1,SSC) (HAG10,state1,SSC) (CAT01,300 GeV-5 TeV)

196 2.47 × 106 4.9 × 105 2.2 3.9 3.11 ± 0.11

(HAG10,state2,SSC) (HAG10,state2,SSC) (HAG10,state2,SSC) (HAG10,state2,SSC) (HAG10,state2,SSC) (TAC27/12/05-07/02/06,1-11 TeV)

4.9 × 103 2.47 × 106 5.52 × 105 2.2 4.1 if exp. cut-off at

(HAG10,state3,SSC) (HAG10,state3,SSC) (HAG10,state3,SSC) (HAG10,state3,SSC) (HAG10,state3,SSC) E0= (4.7 ± 2.1) TeV:

2.47 × 103 2.47 × 106 5.52 × 105 2.3 4.1 2.51 ± 0.26

(HAG10,state4,SSC) (HAG10,state4,SSC) (HAG10,state4,SSC) (HAG10,state4,SSC) (HAG10,state4,SSC) (TAC27/12/05-07/02/06,

γp,max= 8 × 105 pp= 1.3 1-11 TeV,ave.)

(Mast13,22-23/03/11, (Mast13,22-23/03/11, if exp. cut-off at

hadronic model) hadronic model) E0= (3.1 + (0.5 − 0.4)st± 0.9sys) TeV

γp,max= 4 × 106 pp= 1.5 2.1 ± 0.1st± 0.3sys

(Mast13,22-23/03/11, (Mast13,22-23/03/11, (HE Apr-May 2004,1-11 TeV)

lept-hadr LHπ model) lept-hadr LHπ model)

γp,max= 4 × 109 pp= 1.5

(Mast13,22-23/03/11, (Mast13,22-23/03/11, if exp. cut-off at

lept-hadr LHs model) lept-hadr LHs model) Ecutof f = (1.44 ± 0.27) TeV:

γe,max= 3 × 104 pe= 0.7 2.20 ± 0.08

(Mast13,22-23/03/11, (Mast13,22-23/03/11, (MAG04-05,100 GeV-4 TeV,de. Prim05)

lept-hadr LHπ model) lept-hadr LHπ model)

γe,max= 8 × 103 pe= 0.5 2.78 ± 0.09

(Mast13,22-23/03/11, (Mast13,22-23/03/11, (VER06/06/08,0.3-5 TeV)

lept-hadr LHs model) lept-hadr LHs model) 2.59 ± 0.08

γmin0 = 700 γ

0

max= 108 γ

0

c= (2.02 ± 0.11) × 105 s = 2.19 ± 0.02 (VER06/06/08,0.3-5 TeV,de Ha-Dwe01)

(Yan13,SSC,PLC) (Yan13,SSC,both) (Yan13,SSC,PLC,low) (Yan13,SSC,PLC,low)

γmin0 = 1200 γc0= (1.47 ± 0.08) × 105 s = 2.43 ± 0.02 1.66 ± 0.20 − 2.47 ± 0.14 (MAGApr06,

(Yan13,SSC,LP) (Yan13,SSC,LP,low) (Yan13,SSC,LP,low) >250 GeV for 1.66,>350 GeV for 2.47)

γc0= (5.82 ± 0.14) × 105 s = 1.65 ± 0.01 2.38 ± 0.44

(Yan13,SSC,PLC,flare) (Yan13,SSC,PLC,flare) (MAG14/06/06,450 GeV-2.2 TeV)

γc0= (3.63 ± 0.21) × 105 s = 2.02 ± 0.04 if PL fit:

(15)

index

(Yan13,SSC,LP,flare) (Yan13,SSC,LP,flare) 2.07 ± 0.04

(MAGApr06,de. Kn08,300 GeV-4 TeV) 1.93 ± 0.05

(MAG06high,de. Kn08,300 GeV-4 TeV) 2.17 ± 0.05

(MAG06low,de. Kn08,300 GeV-4 TeV) if log-P fit:

α = 1.89 ± 0.06 β = 0.39 ± 0.11

(MAGApr06,de. Kn08,300 GeV-4 TeV) α = 1.79 ± 0.09

β = 0.29 ± 0.15

(MAG06high,de. Kn08,300 GeV-4 TeV) α = 2.02 ± 0.08

β = 0.38 ± 0.17

(MAG06low,de. Kn08,300 GeV-4 TeV) if log-P apex fit:

α0 = 0.41 ± 0.11

(MAGApr06,de. Kn08,300 GeV-4 TeV) α0 = 0.52 ± 0.17

(MAG06high,de. Kn08,300 GeV-4 TeV) α0 = 0.41 ± 0.16

(MAG06low,de. Kn08,300 GeV-4 TeV) if PL+C fit:

α = 1.77 ± 0.09 Ecut= 3.6 ± 1.1 TeV

(MAGApr06,de. Kn08,300 GeV-4 TeV) α = 1.75 ± 0.012

Ecut= 6.1 ± 4.0 TeV

(MAG06high,de. Kn08,300 GeV-4 TeV) α = 1.85 ± 0.15

Ecut= 2.9 ± 1.3 TeV

(MAG06low,de. Kn08,300 GeV-4 TeV) continues in next page

(16)

index 2.42 ± 0.02st± 0.2sys

(MAG07-09,0.3-3 TeV)

if dN/dE = Φ0(E/Edecor)−Γexp(−E/Ecut):

Ecut= (3.4 ± 0.6) TeV

Γ = 2.05 ± 0.22

(HESS Feb2010,ave.,∼ 1.5− ∼ 20 TeV) 2.31 ± 0.14

(TAC09-10,1-16.44 TeV) 2.03 ± 0.16

(TAC09-10,1-16.44 TeV,de. Pr05) 1.85 ± 0.16

(TAC09-10,1-16.44 TeV,de. St07 baseline) 1.73 ± 0.17

(TAC09-10,1-16.44 TeV,de. St07 fast ev.) 1.94 ± 0.18

(TAC09-10,1-16.44 TeV,de. Fr08) 1.97 ± 0.14

(TAC09-10,1-16.44 TeV,de. Gil09) 2.51 ± 0.29 (Di Sci10,ARG08 day 41-180,>0.8 TeV-several TeV,de. Prim05)

2.4 ± 0.3 (Aie10,ARG08,day 41-180, > 0.3 TeV-several TeV,de. Ra.and Maz08)

2.1±0.7

0.5(Aie10,ARG11-13/06/08,

>0.3 TeV-several TeV,de. Ra.and Maz08) ≈ 3

(HEGMarch01,pre-flare,∼700 GeV-4 TeV) 2.85 ± 0.09 (∼700 GeV-4 TeV, HEG24-25/02/01,first half of the night)

2.95 ± 0.09 (∼700 GeV-4 TeV (HEG24-25/02/01,second half of the night)

2.04 ± 0.05 (∼800 GeV-9 TeV HEG23-24/03/01,highest flux night)

3.19 ± 0.04st± 0.04sys

(17)

index (HEG99-00,but χ2

red(d.o.f ) = 2.9(8),

∼ 800 GeV − ∼ 11 T eV ) if dN/dE = N0(E/T eV )−αexp(−E/E0)

α = 2.5 ± 0.1st± 0.04sys

E0= 3.8(±51)st(±0.90.8)sysTeV

(HEG99-00,with χ2

red(d.o.f ) = 0.9(7),

∼ 800 GeV − ∼ 11 T eV ) if dN/dE = N0(E/T eV )−αexp(−E/E0):

α = 2.19 ± 0.02st± 0.04sys

E0= 3.6(±0.40.3)st(±0.90.8)sys TeV

(HEG00-01, with χ2red(d.o.f ) = 8.8(7), ∼ 800 GeV − ∼ 11 T eV ) H 1722+119 MS 1221.8+2452 RGB J0136+391 PKS 0301-243 KUV 00311-1938 ∼ 4

(HESS, preliminary,200 GeV-1 TeV) 1ES 0647+250

1ES 1727+502 100 (MAG11) 6 × 105(MAG11) 3 × 104 (MAG11) 2 (MAG11) 3.5 (MAG11) 2.7 ± 0.5

(MAG11, de. Dom11,200 GeV-2 TeV) 1ES 0033+595

1ES 1741+196

1ES 1215+303 1 × 103(SSC, 1 × 106(SSC, 3 × 104(SSC, 2.0 (SSC, 4.2 (SSC, 3.6 ± 0.5 (VER11,> 200 GeV)

MAG11,highδ) MAG11,highδ) MAG11,highδ) MAG11,highδ) MAG11,highδ) 2.96 ± 0.14st± 0.15sys

8 × 103(SSC, 2.5 × 106(SSC, 9.2 × 104(SSC, 3.0 (SSC, 4.85 (SSC, (MAG11, 70 GeV-1.8 TeV)

MAG11,highγmin) MAG11,highγmin) MAG11,highγmin) MAG11,highγmin) MAG11,highγmin)

1 × 103(SSC, 16.1 × 106(SSC, 1.6 × 104(SSC, 1.8 (SSC, 3.7 (SSC,

MAG11,minχ2) MAG11,minχ2) MAG11,minχ2) MAG11,minχ2) MAG11,minχ2)

1ES 1312-423 if n0γ−pe(−γ/γcut): if n0γ−pe(−γ/γcut):

1 γcut= 1.0 × 106 p=1.75 2.85 ± 0.47st± 0.20sys

(HE04-10 in Hess (HE04-10 in Hess (HE04-10 in Hess (HE04/04-07/10,Hess col.13,280 GeV-5.8 TeV)

(18)

index

collab.2013,SSC) collab.2013,SSC) collab.2013,SSC)

1RXS J101015.9- 300 5 × 106 1.08 × 105 (SSC A, 2.2 (SSC, 4 3.1 ± 0.5

st(HESS06/10,

311909 (SSC,HE06/10) (SSC,HE06/10) F300M,HE06/10) F300M,HE06/10) (SSC,HE06/10) time-averaged,200 GeV-3 TeV,

9.0 × 104 (SSC B, 2 (SSC, Cerruti 2011)

F300M,HE06/10) F1G,HE06/10) 3.08 ± 0.42st± 0.20sys

1.01 × 105 (SSC A, (HESS06/10, time averaged

F1G,HE06/10) 200 GeV-3 TeV,

7.8 × 104 (SSC B Abramowski 2012)

F1G,HE06/10) 2.61-3.55

3.26 × 104 1.6 4 (SSC algorithm of

(SSC, Cer13,min1.6) (SSC, Cer13,min1.6) (SSC, Cer13,min1.6) Cerruti et al. 2013,>1 TeV)

9.62 × 104 1.6 4

(SSC, Cer13,max1.6) (SSC, Cer13,max1.6) (SSC, Cer13,max1.6)

3.43 × 104 1.8 4

(SSC, Cer13,min1.8) (SSC, Cer13,min1.8) (SSC, Cer13,min1.8)

11.21 × 104 1.8 4

(SSC, Cer13,max1.8) (SSC, Cer13,max1.8) (SSC, Cer13,max1.8)

3.49 × 104 2 4

(SSC, Cer13,min2) (SSC, Cer13,min2) (SSC, Cer13,min2)

13.14 × 104 2 4

(SSC, Cer13,max2) (SSC, Cer13,max2) (SSC, Cer13,max2)

HESS J1943+213 3.1 ± 0.3st± 0.2sys

(HE05-09, 470 GeV-∼6 TeV)

SHBL J001355.9- 1 if Ne(γ) ∝ if Ne(γ) ∝ 3.4 ± 0.5st± 0.2sys

185406 (Abram13,SSC) γ−pexp(−γ/γ

cut), γ−pexp(−γ/γcut), (HE08-11,Abram13,0.3-20 TeV)

γcut= 5 × 105 p=2.2

(Abram13,SSC) (Abram13,SSC)

B3 2247+381 3 × 103(MAG10, 6 × 105(MAG10, 7.1 × 104(MAG10, 2.0 (MAG10, 4.35 (MAG10, 3.2 ± 0.5

st± 0.5sys

SSC, Swift high) SSC, Swift high) SSC, Swift high) SSC, Swift high) SSC, Swift high) (MAG10,150 GeV-1 TeV)

3 × 103(MAG10, 5 × 105(MAG10, 6.8 × 104(MAG10, 2.0 (MAG10, 5.35 (MAG10, 2.7 ± 0.5

st± 0.5sys

SSC, Swift low) SSC, Swift low) SSC, Swift low) SSC, Swift low) SSC, Swift low) (MAG10, de. Dom11

104(MAG10, 4.8 × 105 (MAG10, 2.9 × 104(MAG10, and Kne10,150 GeV-1 TeV)

(19)

index

SSC, Weid10) SSC, Weid10) SSC, Weid10)

IC 310 2.00 ± 0.14

(MAG09-10,200 GeV-7 TeV) 1.96 ± 0.10st± 0.20sys

(MAG09-10, both wobble, 120 GeV-8.1 TeV high state in Aleksic13)

1.85 ± 0.11st± 0.20sys

(MAG09-10, both wobble, 120 GeV-8.1 TeV high state in Aleksic13, de. Dom11)

1.95 ± 0.12st± 0.20sys

(MAG09-10, both wobble, 120 GeV-8.1 TeV low state in Aleksic13)

1.81 ± 0.13st± 0.20sys

(MAG09-10, both wobble, 120 GeV-8.1 TeV low state in Aleksic13, de. Dom11)

RX J0648.7+1516 6.7 × 104 106 q=4.8 4.4 ± 0.8

st± 0.3sys

(VER10, SSC) (VER10, SSC) (VER10, SSC) (VER10,200-650 GeV)

8.2 × 104 106 q=4.8

(VER10, EC) (VER10, EC) (VER10, EC)

γmin,e= 9 × 103 γmax,e= 5 × 104 qe= 4.8

(VER10,Lept.-Hadr.) (VER10,Lept.-Hadr.) (VER10,Lept.-Hadr.)

γmin,p= 1.96 × 106 γmax,p= 2.9 × 1013 qp= 2

(VER10,Lept.-Hadr.) (VER10,Lept.-Hadr.) (VER10,Lept.-Hadr.)

PKS 0447-439 1 (HE09-10,SSC,Pr11) 3 × 105 2.6 × 104 2.0 4.4 3.2 ± 0.5

3 × 103 (HE09-10,SSC,Pr11) (HE09-10,SSC,Pr11) (HE09-10,SSC,Pr11) (HE09-10,SSC,Pr11) (HENov09-Jan10,de. Fr08,

(HE09-10,SSC,Pr11) ∼ 300 GeV − ∼ 2 T eV ,

400 9 × 105 2.5 × 104 2 3.7 in Prandini et al. 2011, at z=0.20)

(HE09-10, (HE09-10, (HE09-10, (HE09-10, (HE09-10, 4.36 ± 0.49

Hess coll. 2013,SSC) Hess coll. 2013,SSC) Hess coll. 2013,SSC) Hess coll. 2013,SSC) Hess coll. 2013,SSC) (HENov09-Jan10,∼ 300 GeV − ∼ 2 T eV , in Zech et al.10 and Prand. et al.11)

3.89 ± 0.37st± 0.22sys

(HENov09-Jan10,∼250 GeV-2 TeV, continues in next page

(20)

index in Hess collab. 2013)

1ES 0502+675 1.96 × 103 1.75 5 3.92 ± 0.35

(VER09) (VER09) (VER09) (VER09-10,Benbow11,>300 GeV)

4.5 × 105 4

(VER09,Katarz.2011 (VER09,Katarz.2011

model) model)

1ES 0414+009 2 × 105 5 × 106 q

e=3.5 3.4 ± 0.5st± 0.3sys

(VER08-11,SSC) (VER08-11,SSC) (VER08-11,SSC) (VER08-11,230-850 GeV)

9 × 104 3 × 106 q

e=3.5 3.45 ± 0.25st± 0.20sys

(VER08-11,EC) (VER08-11,EC) (VER08-11,EC) (HESS05-09,200 GeV-2 TeV)

4.8 × 103 1 × 105 q

e=3.6 1.86 ± 0.06

(VER08-11,Lep-Hadr) (VER08-11,Lep-Hadr) (VER08-11,Lep-Hadr) (HE05-09, 200 GeV-2 TeV,de. Fr08,

γp,min= 1.0 × 103 γp,max= 1.0 × 1011 qp= 1.8 and also 1 GeV-2 TeV with Fermi data)

(VER08-11,Lep-Hadr) (VER08-11,Lep-Hadr) (VER08-11,Lep-Hadr)

RBS 0413 7 × 104 1 × 106 q=2.4 3.18 ± 0.68

st± 0.30sys

(VER08-10,SSC) (VER08-10,SSC) (VER08-10,SSC) (VER08-10,∼250 GeV-∼1 TeV)

5 × 104 1 × 106 q=2.5

(VER08-10,SSC+EC) (VER08-10,SSC+EC) (VER08-10,SSC+EC)

γmin,e= 4.5 × 103 γmax,e= 5.0 × 104 qe= 2.4

(VER08-10,Lep-Hadr) (VER08-10,Lep-Hadr) (VER08-10,Lep-Hadr)

γmin,p= 1.96 × 108 γmax,p= 3.13 × 1013 qp= 2.4

(VER08-10,Lep-Hadr) (VER08-10,Lep-Hadr) (VER08-10,Lep-Hadr)

RGB J0710+591 6 × 104 2 × 106 2.69 ± 0.26

st± 0.20sys

(VER08-09, SSC) (VER08-09, SSC) (VER08-09,0.31-4.6 TeV)

0.4 × 106 2 4 ∼ 1.85

(Katarz.11 model, (Katarz.11 model (Katarz.11 model (VER08-09,de. Fr.08,0.31-4.6 TeV)

Swift-Fermi) Swift-Fermi) Swift-Fermi)

1 × 106

(Katarz.11 model, Swift-VERITAS)

1ES 0806+524 1.77 × 104 2 × 105 n

1= n2= 3.6 ± 1.0st± 0.3sys

(VER06-08,SSC,low) (VER06-08,SSC,low) = q = 3.1 (VER11/07-04/08,

(21)

index

1.6 × 104 2 × 105 since the power- ∼300-∼700 GeV),

(VER06-08,SSC,high) (VER06-08,SSC,high) law distrib. 2.8 ± 0.5st(VER11/07-04/08,

is unbroken ∼300-∼700 GeV,de.Fr.08)

(VER06-08,SSC,low) n1= n2=

= q = 2.7 since the

power-law distrib. is unbroken (VER06-08,SSC,high)

1 × 103 7 × 105 2 × 104 2.0 3.85

(MAG11,SSC high) (MAG11,SSC high) (MAG11,SSC high) (MAG11,SSC high) (MAG11,SSC high)

1 × 103 7 × 105 2 × 104 2.0 3.90

(MAG11,SSC low) (MAG11,SSC low) (MAG11,SSC low) (MAG11,SSC low) (MAG11,SSC low)

RGB J0152+017 1 4 × 105 7.0 × 104 2 3 2.95 ± 0.36

st± 0.20sys

(HE07,SSC X-ray-VHE) (HE07,SSC X-ray-VHE) (HE07,SSC X-ray-VHE) (HE07,SSC X-ray-VHE) (HE07,SSC X-ray-VHE) (HE07,240 GeV-3.8 TeV) 104

(HE07,SSC radio, jet)

1ES 1011+496 1 0.6 × 106 4 × 104 2 4.1 3.20 ± 0.58

(MAG08, SSC) (MAG08, SSC) (MAG08, SSC) (MAG08, SSC) (MAG08, SSC) (MAG08, Reint11,∼ 100− ∼ 650 GeV)

868 0.57 × 106 0.30 × 104 2.2 3.2

(MAG08,2Z SSC) (MAG08,2Z SSC) (MAG08,2Z SSC) (MAG08,2Z SSC) (MAG08,2Z SSC)

1 (MAG07, 2 × 107 5 × 104 2 5 4.0 ± 0.5

SSC, model1) (MAG07,SSC) (MAG07,SSC) (MAG07,SSC) (MAG07,SSC) (MAG07,∼120-∼750 GeV)

3 × 103(MAG07, 3.3 ± 0.7 (MAG07,

SSC, model2) ∼120-∼750 GeV,de. Kn.02)

1ES 0347-121 1 × 103 3 × 106 3.55 × 105 2.35 3.35 3.10 ± 0.23

st± 0.10sys

(HE06,SSC) (HE06,SSC) (HE06,SSC) (HE06,SSC) (HE06,SSC) (HE06,∼250 GeV-∼3 TeV)

2.10 ± 0.21 (HE06, ∼250 GeV-∼3 TeV,de. Pr.05)

1.69 ± 0.22 (HE06, ∼250 GeV-∼3 TeV,de. Ah.06) continues in next page

(22)

index

PKS 0548-322 1 5 × 106 2.7 × 105 2.2 3.0 2.8 ± 0.3

st± 0.1sys

(HE04-08,SSC) (HE04-08,SSC) (HE04-08,SSC) (HE04-08,SSC) (HE04-08,SSC) (HE04-06,prelim.,∼ 400 GeV − ∼ 3T eV )

2.86 ± 0.34st± 0.10sys

(HE04-08,∼ 300 GeV − ∼ 4 T eV )

1ES 0229+200 3.9 × 105(SSC, 1.9 × 108(SSC, 6.2 × 107(SSC, 2.6 (SSC, 3.6 (SSC, 2.50 ± 0.19st± 0.10sys

Kaufmann et al.11, Kaufmann et al.11, Kaufmann et al.11, Kaufmann et al.11, Kaufmann et al.11, (HE05-06,∼ 600 GeV − ∼ 10 T eV )

HE05-06 but HE05-06 but HE05-06 but HE05-06 but HE05-06 but 0.6 ± 0.3 (HE05-06,

other wavelengths other wavelengths other wavelengths other wavelengths other wavelengths ∼ 600 GeV − ∼ 10 T eV ,de. St.06,baseline)

observed later) observed later) observed later) observed later) observed later) 0.1 ± 0.3 (HE05-06,

∼ 600 GeV − ∼ 10 T eV ,de. St.06,fast ev.) 1.92 ± 0.22 (HE05-06,

∼ 600 GeV − ∼ 10 T eV ,de. Pr.05) 2.44 ± 0.11

(VER09-11,∼220 GeV-∼15 TeV)

Markarian 180 10 2 × 106 5 × 104 1.8 4 3.3 ± 0.7

(MAG08,1Z SSC low) (MAG08,1Z SSC low) (MAG08,1Z SSC low) (MAG08,1Z SSC low) (MAG08,1Z SSC low) (MAG06,∼ 150 GeV − ∼ 2 T eV )

7 1 × 106 2.5 × 104 2.3 3.3 2.8 ± 0.7

(MAG08,2Z SSC low) (MAG08,2Z SSC low) (MAG08,2Z SSC low) (MAG08,2Z SSC low) (MAG08,2Z SSC low) (MAG06,de. Kn.04,∼ 150 GeV − ∼ 2 T eV )

10 3 × 106 30 × 104 1.8 4

(MAG08,1Z SSC high) (MAG08,1Z SSC high) (MAG08,1Z SSC high) (MAG08,1Z SSC high) (MAG08,1Z SSC high)

7 10 × 106 15 × 104 2.2 3.2

(MAG08,2Z SSC high) (MAG08,2Z SSC high) (MAG08,2Z SSC high) (MAG08,2Z SSC high) (MAG08,2Z SSC high)

PG 1553+113 310 7.8 × 104±7.8×10−5

1.96×10−6 1.23 × 104±

3.1×10−6

2.2×10−6 2.6 3.6 4.0 ± 0.6st

(MAG05-06,SSC) (MAG05-06,SSC) (MAG05-06,SSC) (MAG05-06,SSC) (MAG05-06,SSC) (HE05,∼ 200− ∼ 600GeV )

1 2 × 105 3 × 104 2 4.7 4.21 ± 0.25

st

(MAG08,SSC) (MAG08,SSC) (MAG08,SSC) (MAG08,SSC) (MAG08,SSC) (MAG05-06,∼90-∼500 GeV)

2.5 × 103 2.2 × 105 3.2 × 104 2.0 4.0 4.31 ± 0.45

st

(MAG05-09,SSC,mean) (MAG05-09,SSC,mean) (MAG05-09,SSC,mean) (MAG05-09,SSC,mean) (MAG05-09,SSC,mean) (MAG05,∼90-∼500 GeV)

1 × 103 5.2 × 105 3 × 104 2 3.75 3.95 ± 0.23

st

(MAG05-09,SSC,max) (MAG05-09,SSC,max) (MAG05-09,SSC,max) (MAG05-09,SSC,max) (MAG05-09,SSC,max) (MAG06,∼90-∼500 GeV)

5 × 103 4.1 × 105 1.3 × 104 2 3.55 4.1 ± 0.3

st

(MAG05-09,SSC,min) (MAG05-09,SSC,min) (MAG05-09,SSC,min) (MAG05-09,SSC,min) (MAG05-09,SSC,min) (MAGJuly06,MWL,∼ 70− ∼ 600 GeV ) continues in next page

(23)

index 4.46 ± 0.34st± 0.10sys

(HE05-06,225 GeV-∼1.3 TeV) 4.01 ± 0.60st± 0.10sys

(HE05,225 GeV-∼1.3 TeV,opt. effic. correct.) 4.45 ± 0.48st± 0.10sys (HE06,225-534 GeV) 3.4 ± 0.1 (MAG08,∼ 65− ∼ 600 GeV ) 3.5 ± 0.2 (MAGMarch08,∼ 65− ∼ 600 GeV ) 3.3 ± 0.2 (MAGApril08,∼ 65− ∼ 600 GeV ) 4.1 ± 0.3 (MAG07,∼ 80− ∼ 500 GeV) 4.3 ± 0.4 (MAG08,∼ 150− ∼ 800 GeV) 3.6 ± 0.5 (MAG09,∼ 150− ∼ 700 GeV) 4.27 ± 0.14 (MAG05-09,mean,∼ 90− ∼ 700GeV) 3.09 ± 0.20 (MAG05-09,de.Dom.11, at z=0.40,∼ 90− ∼ 700GeV) 2.91 ± 0.21 (MAG05-09,de.Dom.11, at z=0.45,∼ 90− ∼ 700GeV) 4.50 ± 0.21 (VER10,175-500 GeV) 4.23 ± 0.20 (VER11,175-500 GeV) 4.41 ± 0.14 (VER10-11,175-500 GeV) 4.2 ± 0.3 (MAG Apr-May05, Jan-Apr06,∼ 65− ∼ 600 GeV ) 4.12 ± 0.17 (MAG05-08, continues in next page

(24)

index

Prand09,∼ 80 GeV − ∼ 1 T eV )

H 2356-309 103 3 × 106 2.5 × 105 2 4 3.09 ± 0.24

st± 0.10sys

(HE04,SSC) (HE04,SSC) (HE04,SSC) (HE04,SSC) (HE04,SSC) (HE04,200 GeV-1.3 TeV,3D model an.)

3.06 ± 0.21st± 0.10sys

(HE04,200 GeV-1.3 TeV,standard an.)

1 × 103 3 × 106 1 × 105 2.3 3.6 3.06 ± 0.15st± 0.10sys

(HE04-07,SSC,XMM) (HE04-07,SSC,XMM) (HE04-07,SSC,XMM) (HE04-07,SSC,XMM) (HE04-07,SSC,XMM1) (HE04-07,200 GeV-2 TeV)

3.5 1.97 ± 0.15

(HE04-07,SSC,XMM2) (HE04-07,de. Fr.08,200 GeV-2 TeV)

1 × 103 3 × 106 2.5 × 105 2 3.4 2.97 ± 0.19

st± 0.10sys

(HE04-07,SSC,RXTE) (HE04-07,SSC,RXTE) (HE04-07,SSC,RXTE) (HE04-07,SSC,RXTE) (HE04-07,SSC,RXTE) (HE04,200 GeV-2 TeV,opt. effic. correct.) 2.99 ± 0.39st± 0.10sys

(HE05,200 GeV-2 TeV) 3.43 ± 0.41st± 0.10sys

(HE06,200 GeV-2 TeV)

1 8.1 × 105 n

1= n2= 2.2

(CAN05,SSC) (CAN05,SSC) (CAN05,SSC)

PKS 2005-489 1.5 × 103 2 × 106 3.9 × 104 2 3 4.0 ± 0.4

st

(HES09,SSC) (HES09,SSC) (HES09,SSC) (HES09,SSC) (HES09,SSC) (HE04,∼ 200 GeV − ∼ 3 T eV )

3.20 ± 0.16st± 0.10sys

(HE04-07,∼300 GeV-∼5.3 TeV) 3.65 ± 0.39st± 0.10sys

(HE04,∼300 GeV-∼4 TeV,opt. effic. correct.) 3.09 ± 0.22st± 0.10sys

(HE05,∼320 GeV-∼5.1 TeV) 2.86 ± 0.20st± 0.10sys

(HE06,∼350 GeV-∼11 TeV) 3.48 ± 0.68st± 0.10sys

(HE07,∼240 GeV-∼750 GeV) 2.69 ± 0.16

(HE04-07,de. Fr.08,∼300 GeV-∼5.3 TeV) 3.1 ± 0.4 (HE04,∼300 GeV-∼4 TeV,

opt.effic.correct.,de.Fr.08) continues in next page

(25)

index 2.6 ± 0.2

(HE05,∼320 GeV-∼5.1 TeV,de. Fr.08) 2.4 ± 0.2

(HE06,∼350 GeV-∼11 TeV,de. Fr.08) 3.1 ± 0.7

(HE07,∼240 GeV-∼750 GeV,de. Fr.08) 3.2 ± 0.4

(HE05 Jul-Aug,∼320 GeV-∼5.1 TeV,de. Fr.08) 2.5 ± 0.3

(HE05 Sept,∼320 GeV-∼5.1 TeV,de. Fr.08) 3.0 ± 0.1st± 0.2sys

(HE09,∼ 400 GeV − ∼ 4T eV ) much better with exp. cut-off:

Γ = 1.3 ± 0.6st± 0.2sys

Ecutof f = 1.3 ± 0.5stTeV

(HE09,∼ 400 GeV − ∼ 4T eV ) ends from previous page

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