LOCATION OF γ-RAY FLARE EMISSION IN THE JET OF THE BL LACERTAE OBJECT OJ287 MORE THAN 14 pc FROM THE CENTRAL ENGINE

We combine time-dependent multi-waveband flux and linear polarization observations with submilliarcsecond-scale polarimetric images at λ = 7 mm of the BL Lacertae type blazar OJ287 to locate the γ-ray emission in prominent flares in the jet of the source >14 pc from the central engine. We demonstrate a highly significant correlation between the strongest γ-ray and millimeter-wave flares through Monte Carlo simulations. The two reported γ-ray peaks occurred near the beginning of two major millimeter-wave outbursts, each of which is associated with a linear polarization maximum at millimeter wavelengths. Our very long baseline array observations indicate that the two millimeter-wave flares originated in the second of two features in the jet that are separated by >14 pc. The simultaneity of the peak of the higher-amplitude γ-ray flare and the maximum in polarization of the second jet feature implies that the γ-ray and millimeter-wave flares are cospatial and occur >14 pc from the central engine. We also associate two optical flares, accompanied by sharp polarization peaks, with the two γ-ray events. The multi-waveband behavior is most easily explained if the γ-rays arise from synchrotron self-Compton scattering of optical photons from the flares. We propose that flares are triggered by interaction of moving plasma blobs with a standing shock. The γ-ray and optical emission is quenched by inverse Compton losses as synchrotron photons from the newly shocked plasma cross the emission region. The millimeter-wave polarization is high at the onset of a flare, but decreases as the electrons emitting at these wavelengths penetrate less polarized regions.

[1]  R. Dodson,et al.  ERRATIC JET WOBBLING IN THE BL LACERTAE OBJECT OJ287 REVEALED BY SIXTEEN YEARS OF 7 mm VLBA OBSERVATIONS , 2011, 1112.4747.

[2]  Paul S. Smith,et al.  ON THE LOCATION OF THE γ-RAY OUTBURST EMISSION IN THE BL LACERTAE OBJECT AO 0235+164 THROUGH OBSERVATIONS ACROSS THE ELECTROMAGNETIC SPECTRUM , 2011, 1105.0549.

[3]  M. Gurwell,et al.  MULTIWAVELENGTH OBSERVATIONS OF THE GAMMA-RAY BLAZAR PKS 0528+134 IN QUIESCENCE , 2011, 1104.3557.

[4]  E. Striani,et al.  FERMI LARGE AREA TELESCOPE FIRST SOURCE CATALOG , 2010 .

[5]  G. Tagliaferri,et al.  Does the gamma-ray flux of the blazar 3C 454.3 vary on subhour time-scales? , 2010, 1004.4518.

[6]  J. Chiang,et al.  GAMMA-RAY LIGHT CURVES AND VARIABILITY OF BRIGHT FERMI-DETECTED BLAZARS , 2010, 1004.0348.

[7]  Paul S. Smith,et al.  FLARING BEHAVIOR OF THE QUASAR 3C 454.3 ACROSS THE ELECTROMAGNETIC SPECTRUM , 2010, 1003.4293.

[8]  P. Giommi,et al.  A change in the optical polarization associated with a γ-ray flare in the blazar 3C 279 , 2010 .

[9]  Paul S. Smith,et al.  PROBING THE INNER JET OF THE QUASAR PKS 1510−089 WITH MULTI-WAVEBAND MONITORING DURING STRONG GAMMA-RAY ACTIVITY , 2010, 1001.2574.

[10]  J. Prieto,et al.  Variability and stability in blazar jets on time-scales of years: optical polarization monitoring of OJ 287 in 2005–2009 , 2009, 0912.0005.

[11]  T. Krichbaum,et al.  A 3.5 mm POLARIMETRIC SURVEY OF RADIO-LOUD ACTIVE GALACTIC NUCLEI , 2009, 0911.5523.

[12]  M. Lister,et al.  Jet opening angles and gamma-ray brightness of AGN , 2009, 0910.1813.

[13]  M. Aloy,et al.  SPECTRAL EVOLUTION OF SUPERLUMINAL COMPONENTS IN PARSEC-SCALE JETS , 2008, 0811.1143.

[14]  H. R. Miller,et al.  Correlated Multi-Wave Band Variability in the Blazar 3C 279 from 1996 to 2007 , 2008, 0808.2194.

[15]  Paul S. Smith,et al.  The inner jet of an active galactic nucleus as revealed by a radio-to-γ-ray outburst , 2008, Nature.

[16]  M. Bremer,et al.  Superluminal non-ballistic jet swing in the quasar NRAO 150 revealed by mm-VLBI , 2007, 0710.5435.

[17]  Paul S. Smith,et al.  Multiwaveband Polarimetric Observations of 15 Active Galactic Nuclei at High Frequencies: Correlated Polarization Behavior , 2007, 0705.4273.

[18]  Paul S. Smith,et al.  Rapid Multiwaveband Polarization Variability in the Quasar PKS 0420–014: Optical Emission from the Compact Radio Jet , 2007, astro-ph/0703118.

[19]  J. Dunlop,et al.  From Z-Machines to Alma: (SUB) Millimeter Spectroscopy of Galaxies , 2007 .

[20]  Heidelberg,et al.  Testing the inverse-Compton catastrophe scenario in the intra-day variable blazar S5 0716+71 II. A search for intra-day variability at millimetre wavelengths with the IRAM 30 m telescope , 2006, astro-ph/0606049.

[21]  T. Cawthorne Polarization of synchrotron radiation from conical shock waves , 2006 .

[22]  A. Marscher,et al.  External Compton Radiation from Rapid Nonthermal Flares in Blazars , 2005, astro-ph/0504639.

[23]  Paul S. Smith,et al.  Polarimetric Observations of 15 Active Galactic Nuclei at High Frequencies: Jet Kinematics from Bimonthly Monitoring with the Very Long Baseline Array , 2005, astro-ph/0502501.

[24]  K. Kingham,et al.  Structure of OJ 287 from Geodetic VLBA Data , 2004 .

[25]  Aneta Siemiginowska,et al.  X-Ray Emission from the Quasar PKS 1127–145: Comptonized Infrared Photons on Parsec Scales , 2003, astro-ph/0311411.

[26]  A. Lähteenmäki,et al.  Testing of Inverse Compton Models for Active Galactic Nuclei with Gamma-Ray and Radio Observations , 2003 .

[27]  A. V. Yurchenko,et al.  Multiepoch Very Long Baseline Array Observations of EGRET-detected Quasars and BL Lacertae Objects: Superluminal Motion of Gamma-Ray Bright Blazars , 2001, astro-ph/0101570.

[28]  A. Marscher,et al.  Multiepoch Very Long Baseline Array Observations of EGRET-detected Quasars and BL Lacertae Objects: Connection between Superluminal Ejections and Gamma-Ray Flares in Blazars , 2001, astro-ph/0102012.

[29]  M. Aloy,et al.  Jet Stability and the Generation of Superluminal and Stationary Components , 2001, astro-ph/0101188.

[30]  Ari Mujunen,et al.  Fifteen years monitoring of extragalactic radio sources at 22 , 1998 .

[31]  A. Marscher,et al.  Hydrodynamical Models of Superluminal Sources , 1997 .

[32]  J. Grove,et al.  An Intense Gamma-Ray Flare of PKS 1622–297 , 1996, astro-ph/9610007.

[33]  J. Bregman,et al.  Optical and radio variability in blazars , 1992 .

[34]  T. W. Jones,et al.  Polarization as a probe of magnetic field and plasma properties of compact radio sources: simulation of relativistic jets , 1988 .

[35]  R Edelson,et al.  The Discrete Correlation Function: a New Method for Analyzing Unevenly Sampled Variability Data , 1988 .

[36]  Walter Kieran Gear,et al.  Models for high-frequency radio outbursts in extragalactic sources, with application to the early 1983 millimeter-to-infrared flare of 3C 273. , 1985 .