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Photopolarimetric monitoring of 41 blazars in optical and near-infrared bands with KANATA telescope (Flux, Color, Polarization) 2009.11.4 fermi symposium.

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Presentation on theme: "Photopolarimetric monitoring of 41 blazars in optical and near-infrared bands with KANATA telescope (Flux, Color, Polarization) 2009.11.4 fermi symposium."— Presentation transcript:

1 Photopolarimetric monitoring of 41 blazars in optical and near-infrared bands with KANATA telescope (Flux, Color, Polarization) 2009.11.4 fermi symposium Y. Ikejiri 、 M. Uemura 、 M. Sasada 、 K. Sakimoto 、 R. Itoh 、 M. Yamanaka 、 A. Arai 、 Y. Fukazawa 、 T. Ohsugi 、 K. Kawabata(Hiroshima University) 、 S. Sato 、 M. Kino(Nagoya University)

2 Class of Blazars Inoue et al. 2009 LBL IBL HBL optical band The peak energy of synchrotron emission : Lower than optical region Optical region Higher than optical region ⇒ LBL (Low-energy peaked BL Lac object) ⇒ IBL (Intermediate-energy peaked BL Lac object) ⇒ HBL (High-energy peaked BL Lac object) We discuss the characteristics of each class.

3 Relationship between flux & color Relationship between flux & Polarization Degree (P.D.) Some of blazars tend to be bluer-when-brighter. The Flux varies by injection of high energy electron? Erratic or Systematic??? ⇒ Poorly studied in optical ⇒ Common feature in ALL blazars??? Previous works about color and polarization Flux & Color of 3C 273 magnitude in V Color (V-R) Dai et al. 2009 We investigated the correlation of Flux, Color and Polarization, using the KANATA telescope. Yu et al. 2002 P.D magnitude in R Flux & P.D. of OJ 287 bluer brighter

4 KANATA telescope Detector: TRISPEC TRISPEC can do simultaneous photopolarimetory in the Optical (V) and near-infrared (J) bands. KANATA and TRISPEC are good tools for the observation of blazars. KANATA of Hiroshima-Univ. ⇒ We can perform observations Flexibly, Frequently and for a Long period. KANATA 1.5m Optical and near-infrared telescope in Higashi-Hiroshima Observatory We performed follow up observation with Fermi!!

5 Monitoring list 1ES 0323+022 1ES 0647+250 1ES 0806+524 1ES 1959+650 1ES 2344+514 3C 371 3C 454.3 3C 66A 3C 273 3C 279 AO 0235+164 BL Lac H 1722+119 Total : 41 MisV 1436 Mrk 421 Mrk 501 OJ 287 OJ 49 ON 231 ON 325 OQ 530 PG 1553+113 PKS 0048-097 PKS 0215+015 PKS 0422+004 PKS 0754+100 PKS 1222+216 PKS 1502+106 PKS 1510-089 PKS 1749+096 PKS 2155-304 QSO 0454-234 QSO 0948+002 QSO 1239+044 RX J1542.8+612 S2 0109+22 S4 0954+65 S5 0716+7143 S5 1803+78 3EG 1052+571 QSO 0324+341 Detected by Fermi Monitoring observations started on May 2008. Some results : Sasada+08, Sasada+09

6 Correlation of Flux and Color (V-J)

7 Examples of light curves 3C 454.3 3C 371 bluer-when-brighter bluer redder-when- brighter The objects showing a redder-when-brighter trend. ・ 3C 454.3 ・ PKS 1510-089 ・ QSO 0454-234 Flux & Color of 3C 454.3 The thermal emission of an accretion disk can be seen when the emission of the jet becomes weak. bluer brighter

8 Correlation of Flux & Color The number of objects which have ・・・ ・ significant correlation : 24 (83%). -bluer-when-brighter 21 -(redder+bluer)-when-brighter 3 ・ no correlation : 5 (17%). The “bluer-when-brighter” feature is common observed in 83% blazars. Objects observed in more than 10 nights: N obs > 10 ⇒ 29/41 bluer bright er Absolute mag. in V Color (V-J) Bluer-when-brighter

9 steeper Absolute mag. (average) brighte r Gradient ⊿ Flux/ ⊿ Color Luminosity & Color(V-J) ・ HBLs tend to be faint and have small gradient. ・ The variation amplitudes of color are also small in HBLs, too. redde r bright er Absolute mag. in V Color (V-J) Absolute magnitudes and Color of all objects “bluer-when-brighter” objects The faint blazars (=HBLs) show less variability than LBLs. ⊿ Flux/ ⊿ Color steep shallow

10 Correlation of Flux and Polarization Degree (P.D.)

11 Correlation of Flux & P.D. The number of objects which have ・・・ ・ significant correlation: 14 (48%). (4 objects show negative correlation.) ・ no correlation: 15 (52%). Poor correlation of Flux & P.D., compared with that of Flux & Color N obs > 10 ⇒ 29/41 Objects observed for more than 10 nights: magnitude in V P.D. [%] AO0235+164

12 brighte r Absolute mag. in V P.D. [%] higher Luminosity & P.D. absolute magnitudes and P.D. about all blazars ・ There are two type of LBL: ・ large variation amplitude ・ small variaion amplitude ・ The P.D. of faint blazars (=HBLs) are always low. The faint blazars (=HBLs) have low P.D. and show small amplitudes of P.D.. There is no objects.

13 Implication of the observations In blazars, most of flare is caused by the injection of high energy electrons. ν νF ν LBL: observed above cut off of synchrotron emission HBL: below variable The results of the observations ・ “Bluer-when-brighter” : common feature in blazars ・ The faint blazars (=HBLs) have the small variation amplitudes of Flux, Color and P.D.. LBL HBL In the case of optical band less variable Injection of high energy electrons Variation of beaming factor variable

14 ●Correlation The correlation of the Flux and the Color ⇒ 24/29 (83%) The correlation of the Flux and the P.D. ⇒ 14/29 (48%) (positive correlation: 10 (34%), negative correlation: 4 (14%)) ●Variability in each class The faint blazars (=HBLs) have the small amplitudes of Flux, Color and P.D.. Summary Latest observations can been in “KANATA Obslog” http://kanatatmp.q.atena.ne.jp/kanataobslog/ Future works ・ More detailed analysis of Polarization ・ The correlation of the gamma and the optical ⇒ under investigation

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