Radio-Optical Study of Double-Peaked AGNs: 3C 390.3

Slides:

Advertisements

Similar presentations

Connection between the parsec-scale radio jet and γ-ray flare in the blazar Venkatessh Ramakrishnan Aalto University Metsähovi Radio Observatory,

Advertisements

AY202a Galaxies & Dynamics Lecture 14: Galaxy Centers & Active Galactic Nuclei.

 MOLECULAR GAS IN THE CORES OF AGN Violette Impellizzeri (NRAO) Alan Roy (MPIfR), Christian Henkel (MPIfR)

UNCERTAINTIES ON THE BLACK HOLE MASSES AND CONSEQUENCES FOR THE EDDINGTON RATIOS Suzy Collin Observatoire de Paris-Meudon, France Collaborators: T. Kawaguchi.

Kinematic Studies of the IDV Quasar S. Bernhart T. P. Krichbaum L. Fuhrmann Max-Planck-Institut fϋr Radioastronomie, Bonn.

Detection and Photometric Monitoring of QSOs and AGN with COROT J. Surdej, J.Poels, J.-F. Claeskens, E. Gosset Institut d’Astrophysique et de Géophysique,

Gabriele Giovannini Dipartimento di Astronomia, Bologna University Istituto di Radioastronomia - INAF The jet and core in M 87 In collaboration with :

Exploring the Inner microarcseconds of AGN using the Space Interferometry Mission "SIM Lite" Ann E. Wehrle Principal Investigator, SIM AGN Key Project.

On the geometry of broad emission region in quasars Roberto Decarli Turin - May, 20 th, 2008 Università degli Studi dell’Insubria Dipartimento di Fisica.

Active Galactic Nuclei Very small angular size: point like High luminosity: compared to host galaxies Broad-band continuum emission: radio to TeV Strong.

An XMM-Newton view of Q : an AGN without Broad Line Region? Mario Gliozzi (GMU) L. Foschini (IASF Bo) R. Sambruna (GSFC) L. Kedziora-Chudczer (Sidney)

The Dusty Torus of NGC1068 Literature Study for the Bachelor Research Project: Bas Nefs Maarten Zwetsloot.

Eddington limited starbursts in the central 10pc of AGN Richard Davies, Reinhard Genzel, Linda Tacconi, Francisco Mueller Sánchez, Susanne Friedrich Max.

Irradiated accretion disk emission from an ultrasoft AGN? OM The unusually hot ‘big blue bump’ When Beppo-SAX measured the 0.1 to 12keV.

Photometric Reverberation Mapping of NGC 4395 The Restless Nature of AGNs 22 May, 2013 Stephen Rafter – The Technion, Haifa Israel.

Mike Crenshaw (Georgia State University) Steve Kraemer (Catholic University of America) Jack Gabel (University of Colorado) NGC 4151 Mass Outflows from.

Activity of the Group for Astrophysical Spectroscopy - GAS Luka Č. Popović Astronomical Observatory, Belgrade, Serbia.

1 The Fundamental Plane Relationship of Astrophysical Black Holes Ran Wang Supervisor: Xuebing Wu Peking University Ran Wang Supervisor: Xuebing Wu Peking.

Magnetic Fields Near the Young Stellar Object IRAS M. J Claussen (NRAO), A. P. Sarma (E. Kentucky Univ), H.A. Wootten (NRAO), K. B. Marvel (AAS),

AGN (Continued): Radio properties of AGN I) Basic features of radio morphology II) Observed phenomena Superluminal motion III) Unification schemes.

Imaging Compact Supermassive Binary Black Holes with VLBI G. B. Taylor (UNM), C. Rodriguez (UNM), R. T. Zavala (USNO) A. B. Peck (CfA), L. K. Pollack (UCSC),

S. Jorstad / Boston U., USA A. Marscher / Boston U., USA J. Stevens / Royal Observatory, Edinburgh, UK A. Stirling / Royal Observatory, Edinburgh, UK M.

Results from AGN multiple wavelength observations and the importance of monitoring campaigns 24 – 28 April 2012, Andrevlje, Republic of Serbia G. La Mura.

I.Introduction  Recent evidence from Fermi and the VLBA has revealed a strong connection between ɣ -ray emission in AGNs and their parsec-scale radio.

3C120 R. Craig Walker National Radio Astronomy Observatory Socorro, NM Collaborators: J.M. Benson, S.C. Unwin, M.B. Lystrup, T.R.Hunter, G. Pilbratt, P.E.

Jelena Kovačević 1, Luka Č. Popović 1, Milan S. Dimitrijević 1, Payaswini Saikia 1 1 Astronomical Observatory Belgrade, Serbia.

Extreme soft X-ray emission from the broad-line quasar REJ R.L.C. Starling 1*, E.M. Puchnarewicz 1, K.O. Mason 1 & E. Romero- Colmenero 2 1 Mullard.

S. Jorstad / Boston U., USA /St. Petersburg State U., Russia A.Marscher / Boston U., USA M. Lister / Purdue U., USA A. Stirling / U. of Manchester, Jodrell.

The MOJAVE Program: Studying the Relativistic Kinematics of AGN Jets Jansky Postdoctoral Fellow National Radio Astronomy Observatory Matthew Lister.

VLBI observations of the water megamaser in the nucleus of the Compton-thick AGN IRAS VLBI observations of the water megamaser in the nucleus.

Mike Crenshaw (Georgia State University) Steve Kraemer (Catholic University of America) Mass Outflows from AGN in Emission and Absorption NGC 4151.

THE KINEMATICS OF th EVN SYMPOSIUM N.A. Kudryavtseva 1, S. Britzen 1, J. Roland 2, A. Witzel 1, E. Ros 1, A. Zensus 1, A. Eckart 3.

C. Y. Hui & W. Becker X-Ray Studies of the Central Compact Objects in Puppis-A & RX J Max Planck Institute for Extraterrestrial Physics, Giessenbachstrasse.

Bispectrum speckle interferometry of NGC 1068

Quasi-Periodicity in the Parsec-Scale Jet of the Quasar 3C345 - A High Resolution Study using VSOP and VLBA - In collaboration with: J.A. Zensus A. Witzel.

Radio Galaxies part 4. Apart from the radio the thin accretion disk around the AGN produces optical, UV, X-ray radiation The optical spectrum emitted.

Mapping Magnetic Field Profiles Along AGN Jets Using Multi-Wavelength VLBI Data Mark McCann, Denise Gabuzda Department of Physics, University College Cork,

Analysis of strong outbursts in selected blazars. Pyatunina T.B., Kudryavtseva N.A., Gabuzda D.C., Jorstad S.G., Aller M.F., Aller H.D., Terasranta H.

Constraining the Location of Gamma-ray Emission in Blazar Jets Manasvita Joshi, Boston University Collaborators: Alan Marscher & Svetlana Jorstad (Boston.

The University of Sheffield Joanna Holt 20 th October 2006 Emission line outflows: the evidence for AGN-induced feedback Clive Tadhunter.

The jet of the LLAGN of M81: Evidence of Precession Antxon Alberdi Instituto de Astrofísica de Andalucía (IAA-CSIC) Iván Martí-Vidal (ALMA Nordic Node;

Gabuzda, Murray & Cronin astro-ph/

Accretion #3 When is the thin disk model valid? Reynolds number, viscosity Time scales in disk BH spectra Using X-ray spectra to determine BH mass and.

X-RAY PROPERTIES OF FR II/NLRG X-RAY PROPERTIES OF FR II/NLRG E. Trussoni 1, A. Capetti 1, B. Balmaverde 2 1 INAF – Osservatorio Astronomico di Torino,

Lecture 16 Measurement of masses of SMBHs: Sphere of influence of a SMBH Gas and stellar dynamics, maser disks Stellar proper motions Mass vs velocity.

Outflows in nearby AGN and their relation with radio jets Thaisa Storchi Bergmann Instituto de Física, UFRGS, Porto Alegre, RS, Brazil Leiden Conference.

LINE SHIFT IN ACCRETION DISKS - THE CASE OF Fe Kα

Tracing the coronal emission in AGN with VLT/NACO

Radio Loud and Radio Quiet AGN

Composite profile of the Fe Kα spectral line emitted from a binary system of supermassive black holes Predrag Jovanović1, Vesna Borka Jovanović2 and Duško.

New method for spectroscopic data analysis in AGN variability studies

Chandra Science Highlight

How to Better Weigh a Black Hole and Other Adventures in Quasar Physics Michael Brotherton.

A RULER FOR AGN in X-rays

On behalf of the Radio-Agile AGN WG

Literature Study for the Bachelor Research Project:

An Arecibo HI 21-cm Absorption Survey of Rich Abell Clusters

MODELS OF EMISSION LINE PROFILES AND SPECTRAL ENERGY DISTRIBUTIONS

L B V I The highest redshift radio quasars with the highest resolution

Jelena Kovačević Dojčinović, Luka Č. Popović

“The First Spectroscopically Resolved Sup-pc Orbit of a Supermassive Binary Black Hole” E. Bon et al., accepted(?) to ApJ Sarah Burke Spolaor.

Galaxies With Active Nuclei

Millimeter Megamasers and AGN Feedback

Galaxies With Active Nuclei

Balmer Lines as a Probe of Physical Processes in the Broad Line Region

Center for Astrophysics

Compact radio jets and nuclear regions in galaxies

A magnetically collimated jet from an evolved star

EVN observations of OH maser burst in OH

An MHD Model for the Formation of Episodic Jets

Presentation transcript:

Radio-Optical Study of Double-Peaked AGNs: 3C 390.3 J. León-Tavares 1,2, Andrei Lobanov 2, Vahram Chavushyan1, Tigran Arshakian2, Alla Shapovalova3 & Alexander Burenkov3 1 Instituto Nacional de Astrofísica, Optica y Electrónica (INAOE), Puebla, México 2 Max Planck Institute fur Radioastronomie (MPifR), Bonn, Germany 3 Special Astrophysic Observatory (SAO RAS), Nizhnij Arkhyz Russia What is a Double-Peaked AGN? Inner Jet -- Optical emission Among the variety of types and species in the AGN “zoo”, there is a small fraction of AGN showing unusually broad and double-peaked (DP) profiles of the Balmer and Mg II emission lines. The widths of the DP profiles range from several thousands to about 40000 km s-1 for the broadest detection. Around 150 DP AGN are known at present. DP Balmer lines, optical continuum and parsec-scale radio emission have been monitored for 3C 390.3 since 1991 until 2007 (Zheng et al. 1991; Shapovalova et al. 2001; Kellermann et al. 2004; Gezari et al. 2007, Shapovalova et al. in prep). We have measured flux densities of all of the VLBI jet components and used back-extrapolation of linear fits to the component trajectories to calculate the epochs of ejection from the nucleus (D) and the epochs of passage through the closest stationary feature S1 26,000 km s-1 Black Hole Accretion Disk Jet Ha D S1 Figure 2. Left panel. Compact radio structure of 3C390.3 at 15 GHz observed in October 2006 with VLBA. The compact jet can be modeled by circular gaussian components , D at r=0 mas, S1 at r=0.3 mas and S2 at r=1.4 mas are stationary , while the other features are moving. We have used 19 epoch of observations extracted from the MOJAVE/2cm Survey , NRAO data Archive and our VLBA observations. Figure 1. (Left) Cartoon for the LINER NGC 1097 showing the accretion geometry proposed in order to exhibit double-peaked emission lines (credits of image T. Storchi-Bergman). (Right). Optical spectra for the extreme DP AGN SDSS J141742.95+614152 which Ha Balmer emission line profile is very broad (FWHM ~ 26,000 km s-1) and double peaked . The starlight (blue-line) and nuclear continuum (red-line) are also shown. Corona BLR-1 (disk) Subrelativistic outflow VLBI “core” BLR-2 (outflow) Relativistic jet S1 D Figure 3 (Left) Variability light curves, from top to bottom Flux Hb, continuum flux at 5100 Å in relative units. Flux density variation for jet components D and S1. Ejection times from the component D (open triangles) and passing times trough component S1 (filled triangles). (Right). A scheme that can be suggested to explain the basic properties of the optical emission and line emission Results Arshakian et al. (2006) using 6 years (95-01) of radio-optical observations found: that: the optical continuum shows a correlation with the flux density of the stationary feature S1 at high confidence level. Flux density variations of S1 and D (core) features show anticorrelation. And suggested two component structure for BLR: BLR-1 ionized by the corona or disk (D) and is evident around the epochs of minima in the cont. flux (the jet contribution is small). BLR-2 ionized by the non-thermal emission from the relativistic jet near the VLBI base of the jet at a distance of ~ 0.4 pc from the central BH. The contribution may be manifested when the jet emission dominates the optical continuum (see Figure. 3 right panel). New radio-optical observations spanning 13 years confirm the optical continuum-inner jet correlation founded by Arshakian et al. (2006). As well the flux density variability anticorrelated between components D and S1 in the radio jet (see Figure. 3 left panel). We identified 8 (3 newly) components (C4 – C11) in the inner jet. The epochs of passage of components C5-C11 through S1 (filled triangles) coincide with the maxima in the optical continuum and H light curves. The null hypothesis that this happens by chance is rejected at high confidence level. This correlations imply strongly that the jet emission from S1 is the main source of the optical continuum driving the double-peaked emission in 3C 390.3. References To further test the model we have identified a representative sample of 9 bright, nearby galaxies that show double-peaked and single-peaked broad-line profiles variability of the Balmer line profiles is being monitored with two 2.1-m instruments of GHAO and OAN-SPM (Mexico) and with the 6-m and 1-m telescopes of SAO (Nizhnij Arkhyz, Russia), This objects have been monitored with VLBA and EVN. Arshakian T.G., et al. 2006, astro-ph/06020016. Chen, K., & Halpern, J. P., 1989, ApJ, 344, 115. Eracleous M. & Halpern, J.P. 2003, ApJ, 599, 886 Gezari et al. 2007, ApJS, 169, 167G. Kellerman K.I. et al.,2004, Apj, 609, 539. Shapovalova A. I. et al. 2001, A&A, 24, 337. Zheng W., et al. 1991 APj,381,418.