The jet of the BL Lac object PKS 0521 -365 in the near-IR : MAD adaptive optics observations

BL Lac objects are low--power active nuclei exhibiting a variety of peculiar properties that are caused by the presence of a relativistic jet and orientation effects. We present here adaptive optics near-IR images at high spatial resolution of the nearby BL Lac object PKS 0521-365, which is known to display a prominent jet both at radio and optical frequencies. The observations were obtained in Ks--band using the ESO multi-conjugated adaptive optics demonstrator at the Very Large Telescope. This allowed us to obtain images with 0.1 arcsec effective resolution. We performed a detailed analysis of the jet and its related features from the near-IR images, and combined them with images previously obtained with HST in the R band and by a re-analysis of VLA radio maps. We find a remarkable similarity in the structure of the jet at radio, near-IR, and optical wavelengths. The broad--band emission of the jet knots is dominated by synchrotron radiation, while the nucleus also exhibits a significant inverse Compton component. We discovered the near-IR counterpart of the radio hotspot and found that the near-IR flux is consistent with being a synchrotron emission from radio to X-ray. The bright red object (red-tip), detached but well aligned with the jet, is well resolved in the near-IR and has a linear light profile. Since it has no radio counterpart, we propose that it is a background galaxy not associated with the jet. The new adaptive optics near-IR images and previous observations at other frequencies allow us to study the complex environment around the remarkable BL Lac object PKS 0521-365. These data exemplify the capabilities of multi conjugate adaptive optics observations of extragalactic extended sources.

[1]  Sao,et al.  A Chandra Survey of Quasar Jets: First Results , 2004, astro-ph/0409566.

[2]  C. Urry,et al.  A survey of extended radio jets with Chandra and HST , 2004, astro-ph/0401475.

[3]  M. Birkinshaw,et al.  The X-ray jet and halo of PKS 0521 365 , 2002, astro-ph/0204509.

[4]  J. E. Pesce,et al.  The Hubble Space Telescope Survey of BL Lacertae Objects. II. Host Galaxies , 1999, astro-ph/9911109.

[5]  D. L. Bertsch,et al.  The Third EGRET Catalog of High-Energy Gamma-Ray Sources , 1998 .

[6]  A. Comastri,et al.  A theoretical unifying scheme for gamma-ray bright blazars , 1998, astro-ph/9807317.

[7]  Roberto Ragazzoni,et al.  Adaptive optics for 100-m-class telescopes: new challenges require new solutions , 2000, Astronomical Telescopes and Instrumentation.

[8]  P. Padovani,et al.  UNIFIED SCHEMES FOR RADIO-LOUD ACTIVE GALACTIC NUCLEI , 1995, astro-ph/9506063.

[9]  T. Piran,et al.  Spectra and Light Curves of Gamma-Ray Burst Afterglows , 1997, astro-ph/9712005.

[10]  J. A. Biretta,et al.  Flaring X-Ray Emission from HST-1, a Knot in the M87 Jet , 2003 .

[11]  D. A. Schwartz,et al.  Structure of the X-Ray Emission from the Jet of 3C 273 , 2000, astro-ph/0012162.

[12]  R. Sambruna,et al.  A Kiloparsec-Scale X-Ray Jet in the BL Lac Source S5 2007+777 , 2008 .

[13]  D. E. Harris,et al.  APJ, ACCEPTED Preprint typeset using LATEX style emulateapj v. 6/22/04 THE OUTBURST OF HST-1 IN THE M87 JET , 2005 .

[14]  Chandra and Hubble Space Telescope Observations of Gamma-Ray Blazars: Comparing Jet Emission at Small and Large Scales , 2007, astro-ph/0703359.

[15]  D. Schlegel,et al.  Maps of Dust Infrared Emission for Use in Estimation of Reddening and Cosmic Microwave Background Radiation Foregrounds , 1998 .

[16]  W. Keel The jet of PKS 0521 - 36 - an aging counterpart of M87? , 1986 .

[17]  University of Bristol,et al.  Chandra Discovery of a 100 kpc X-ray Jet in PKS 0637--752 , 2000 .

[19]  E. Pian,et al.  The Broadband Energy Distribution of the Misaligned Gamma-Ray Blazar PKS 0521-365 , 1996 .

[20]  P. Edwards,et al.  VLBI Observations of Southern EGRET Identifications. II. VLBA Observations and the Importance of Jet Bending in Gamma-Ray Sources , 1998 .

[21]  C. Urry,et al.  A survey of extended radio jets in AGN with Chandra and HST: First Results , 2002, astro-ph/0201412.

[22]  E. Marchetti,et al.  MAD@VLT: Deep into the Madding Crowd of Omega Centauri , 2008, 0803.2207.

[23]  R. Brast,et al.  MCAO near-IR photometry of the globular cluster NGC 6388: MAD observations in crowded fields , 2008, 0810.2248.

[24]  Dayton L. Jones,et al.  VLBI observations of southern EGRET identifications .1. PKS 0208-512, PKS 0521-365, and PKS 0537-441 , 1996 .

[25]  William B. Sparks,et al.  Month-Timescale Optical Variability in the M87 Jet , 2003, astro-ph/0311161.

[26]  C. Urry,et al.  A Survey of Extended Radio Jets in Active Galactic Nuclei with Chandra and the Hubble Space Telescope: First Results , 2002 .

[27]  A SAMPLE OF LOW-REDSHIFT BL LACERTAE OBJECTS. I. THE RADIO DATA , 2004, astro-ph/0406255.

[28]  C. Urry,et al.  Deep Chandra and Multicolor HST Observations of the Jets of 3C 371 and PKS 2201+044 , 2007, 0707.3980.

[29]  R. Ragazzoni Pupil plane wavefront sensing with an oscillating prism , 1996 .

[30]  W. Goss,et al.  The radio and optical properties of the BL Lac object PKS 0521 – 36 , 1979 .

[31]  PARSEC-SCALE BLAZAR MONITORING: PROPER MOTIONS , 2000, astro-ph/0009301.

[32]  D. Schlegel,et al.  Maps of Dust IR Emission for Use in Estimation of Reddening and CMBR Foregrounds , 1997, astro-ph/9710327.

[33]  J. Dreher,et al.  The optical-radio structure of the southwest hotspot of 3C 33 - Astrometry , 1986 .

[34]  B. Dingus,et al.  EGRET observations of the BL Lacertae objects 0716+714 and 0521-365 , 1995 .

[35]  Stsci,et al.  Hubble Space Telescope far-ultraviolet imaging of the jet in 3C 273 : a common emission component from optical to X-rays , 2007, 0706.2564.

[36]  C. Megan Urry,et al.  The Hubble Space Telescope Survey of BL Lacertae Objects. I. Surface Brightness Profiles, Magnitudes, and Radii of Host Galaxies , 1999, astro-ph/9911147.

[37]  P. Edwards,et al.  The Parsec-Scale Structure and Evolution of PKS 0521−365 , 2002 .

[38]  C. Urry,et al.  A Survey of Extended Radio Jets with Chandra and the Hubble Space Telescope , 2004 .

[39]  J. Mathis,et al.  The relationship between infrared, optical, and ultraviolet extinction , 1989 .

[40]  Cesare Barbieri,et al.  First Results from the Faint Object Camera: Observations of PKS 0521-36 , 1990 .