The Broadband Emission Properties of AGN Jets

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The Broadband Emission Properties of AGN Jets Chang, Chin-Shin 1,2,3 Max-Planck-Institut für Radioastronomie 1 Member of International Max Planck Research School of Astronomy and Astrophysics 2 Member of ESTRELA Network 3 Affiliated graduate student of the Fermi/LAT Collaboration

Collaborators Eduardo Ros Universitat de València, Spain & MPI für Radioastronomie, Germany Matthias Kadler Dr. Remeis-Sternwarte & ECAP, Germany CRESST/NASA GSFC & USRA, USA Moritz Böck, Joern Wilms, Laura Barragán Dr. Remeis-Sternwarte & ECAP, Germany M. F. Aller & H. D. Aller (UMRAO) University of Michigan, USA L. Fuhrmann, E. Angelakis & I. Nestoras (F-GAMMA) MPI für Radioastronomie, Germany H. Ungerechts (IRAM) Institut de Radio Astronomie Millimétrique, Spain The MOJAVE Collaboration and the Fermi Collaboration

Active Galactic Nuclei Image Chang, credit: Chin-Shin NASA Swift Team

The Emission of AGN Jet Chang, Chin-Shin

The Emission of AGN Jet Spectral Energy Distribution (SED) 3C 111 Chang et al. Radio ϒ-ray Chang, Chin-Shin

The Emission of AGN Jet 3C 111 Chang et al. Synchrotron Inverse Compton (Leptonic) or Protoninduced (Hadronic) Chang, Chin-Shin

The Broadband Emission of AGN 3C 111 Open questions: Chang et al. in prep Where is the emission of AGN jets generated? Parsec-scale jet? How does apparent jet speed affect broadband emission properties? Does brightness temperature in parsec-scale jet play a role in generating broadband emission? What are the mechanisms to produce high-energy emission of blazars: leptonic (SSC, EIC), hadronic (photon-photon), or both? Chang, Chin-Shin

http://www.physics.purdue.edu/mojave/ Chang, Chin-Shin

The Broadband SED Catalog We constructed a broadband spectral energy distribution (SED) catalog of 135 MOJAVE sources, which is a radioselected complete sample consisting of mostly blazars (AGN as seen jet-on) The MOJAVE sample has 101 flat-spectrum radio quasars 22 BL Lac objects 8 radio galaxies, 4 unidentified objects Continuously monitored in the radio band Use simultaneous datasets from radio to!-ray bands Chang, Chin-Shin

Broadband SED data [!-ray] Fermi LAT 1yr catalog data (Abdo et al. 2010, ApJ 715, 429) for 85 sources; upper-limits for 50 sources (M. Böck et al.) Swift observations [X-ray/Optical] XRT/UVOT: Dedicated program to observe MOJAVE sources, observations after August 2008 [Hard X-ray] BAT: 22-month catalog (J. Tueller et al. 2010, ApJS 186, 378) [Radio] MOJAVE program (Lister et al. 2009, ApJ 137, 3718 ) [Radio] UMRAO monitoring (e.g., Aller et al. 2003, ApJ 586, 33) [Radio] FGAMMA monitoring (Fuhrmann et al. & Angelakis et al. 2010) Chang, Chin-Shin

Broadband SED data [!-ray] Fermi LAT 1yr catalog data (Abdo et al. 2010, ApJ 715, 429) for 85 sources; upper-limits for 50 sources (M. Böck et al.) Swift observations [X-ray/Optical] XRT/UVOT: Dedicated program to observe MOJAVE sources, observations after August 2008 [Hard X-ray] BAT: 22-month catalog (J. Tueller et al. 2010, ApJS 186, 378) [Radio] MOJAVE program (Lister et al. 2009, ApJ 137, 3718 ) [Radio] UMRAO monitoring (e.g., Aller et al. 2003, ApJ 586, 33) [Radio] FGAMMA monitoring (Fuhrmann et al. & Angelakis et al. 2010) Chang, Chin-Shin

Data analysis 3C 111 - A polynomial model is applied to both humps in all broadband SEDs (as a first approach) - We estimated the peak positions of the synchrotron and highenergy humps Chang, Chin-Shin

Chang, Chin-Shin

Distribution and Correlation Study SED: #sync, peak #F# sync, peak #IC, peak #F# IC, peak Radio (VLBI): Flux density Spectral index "app Doppler factor Lorentz factor X-ray: Flux Luminosity Photon index!-ray: Flux Luminosity Photon index Chang, Chin-Shin

Distributions of Synchrotron Peak Values #sync #F#sync Preliminary Preliminary Chang, Chin-Shin

Distributions of IC Peak Values #IC #F#IC Preliminary Preliminary Chang, Chin-Shin

Jet apparent speed & SED properties "app - #F#sync "app - #IC Preliminary Preliminary Chang, Chin-Shin

Summary & Outlook We constructed the broadband SED catalog for the radioselected, statistically-complete MOJAVE sample. We applied polynomial fits to the SED, and derived peak positions of the synchrotron and the IC humps. The distributions of the peak positions of the synchrotron and the IC humps show different behaviors, and further investigations are needed. We see possible relations between the apparent jet speed and #F#sync/#IC, and we will confirm this with further detailed statistical analyses. Chang, Chin-Shin

Summary & Outlook A complete study on the statistical properties between parameters of SED, VLBI, and X-rays is in progress. Physical modeling on the broadband SED is needed in order to understand the properties of each source Chang, Chin-Shin

Thank you Chang, Chin-Shin

Collaborators Eduardo Ros Universitat de València, Spain & MPI für Radioastronomie, Germany Matthias Kadler Dr. Remeis-Sternwarte & ECAP, Germany CRESST/NASA GSFC & USRA, USA Moritz Böck, Joern Wilms, Laura Barragán Dr. Remeis-Sternwarte & ECAP, Germany M. F. Aller & H. D. Aller (UMRAO) University of Michigan, USA L. Fuhrmann, E. Angelakis & I. Nestoras (F-GAMMA) MPI für Radioastronomie, Germany H. Ungerechts (IRAM) Institut de Radio Astronomie Millimétrique, Spain The MOJAVE Collaboration and the Fermi Collaboration

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