Constraints on the gamma-ray emitting region in blazars from multi-frequency VLBI measurements

A. B. Pushkarev (MPIfR; A. Carraminana (INAOE); A. P. Lobanov (MPIfR); CrAO); CRESST/NASA GSFC; Erlangen; F. K. Schinzel (MPIfR); J. D. Finke (NRL/NRC); K. V. Sokolovsky (MPIfR/ASC Lebedev); L. Carrasco (INAOE)

arxiv: 1006.3084 · v1 · submitted 2010-06-15 · 🌌 astro-ph.HE · astro-ph.CO· astro-ph.GA

Constraints on the gamma-ray emitting region in blazars from multi-frequency VLBI measurements

K. V. Sokolovsky (MPIfR/ASC Lebedev) , Y. Y. Kovalev (ASC Lebedev/MPIfR) , A. P. Lobanov (MPIfR) , J. D. Finke (NRL/NRC) , T. Savolainen (MPIfR) , A. B. Pushkarev (MPIfR , Pulkovo obs. , CrAO)

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M. Kadler (Bamberg Erlangen CRESST/NASA GSFC Usra) F. K. Schinzel (MPIfR) V. H. Chavushyan (INAOE) L. Carrasco (INAOE) A. Carraminana (INAOE) M. A. Gurwell (CfA)

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classification 🌌 astro-ph.HE astro-ph.COastro-ph.GA

keywords radioblazarsparsec-scaleemissionemittingexplainmodelssynchrotron

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Single-zone synchrotron self-Compton and external Compton models are widely used to explain broad-band Spectral Energy Distributions (SEDs) of blazars from infrared to gamma-rays. These models bear obvious similarities to the homogeneous synchrotron cloud model which is often applied to explain radio emission from individual components of parsec-scale radio jets. The parsec-scale core, typically the brightest and most compact feature of blazar radio jet, could be the source of high-energy emission. We report on ongoing work to test this hypothesis by deriving the physical properties of parsec-scale radio emitting regions of twenty bright Fermi blazars using dedicated 5-43 GHz VLBA observations and comparing these parameters to results of SED modeling.

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Constraints on the gamma-ray emitting region in blazars from multi-frequency VLBI measurements

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