Multiepoch Multiwavelength Spectra and Models for Blazar 3C 279

Hartman, R. C.; Böttcher, M.; Aldering, G.; Aller, H. D.; Aller, M. F.; Backman, D. E.; Balonek, T. J.; Bertsch, D. L.; Bloom, S. D.; Bock, Heike; Boltwood, P.; Carini, M. T.; Collmar, W.; Francesco, G. de; Ferrara, E. C.; Freudling, W.; Gear, Walter Kieran; Hall, Pat; Heidt, J.; Hughes, P. A.; Hunter, S. D.; Jogee, Shardha; Johnson, W. N.; Kanbach, G.; Katajainen, S.; Kidger, M.; Kii, T.; Koskimies, M.; Kraus, A.; Kubo, H.; Kurtanidze, O. M.; Lanteri, L.; Lawson, A. J.; Lin, Y. C.; Lisenfeld, U.; Madejski, G.; Makino, F.; Maraschi, L.; Marscher, A. P.; McFarland, John; McHardy, I. M.; Miller, H. R.; Nikolashvili, M. G.; Nilsson, K.; Noble, J. C.; Nucciarelli, G.; Ostorero, L.; Pian, E.; Pursimo, T.; Raiteri, C. M.; Reich, W.; Rekola, R.; Richter, G. M.; Robson, E. I.; Sadun, A. C.; Savolainen, Tuomas; Sillanpää, A.; Smale, A. P.; Sobrito, G.; Sreekumar, P.; Stevens, J. A.; Takalo, L. O.; Tavecchio, F.; Teräsranta, H.; Thompson, D. J.; Tornikoski, M.; Tosti, G.; Ungerechts, H.; Urry, C. Megan; Valtaoja, E.; Villata, M.; Wagner, S. J.; Wehrle, A. E.; Wilson, John W.

doi:10.1086/320970

Cited by 135 publications

(163 citation statements)

References 68 publications

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“…Now that scattered accretion disk emission (e.g. Hartman et al 2001;Dermer & Schlickeiser 2002) provides a similar emission component with IR emission, we argue that it is important to determine if the γ-ray emission region is made deep within the BLR or farther out, where the density of BLR is more dilute. We leave this open issue to the studies on γγ attenuation at very high energy γ-ray regime (e.g.…”

Section: Discussionmentioning

confidence: 95%

“…Multi-wavelength snapshot observations for several epoches including γ-rays show that the SED could be explained by the leptonic model (Hartman et al 2001). In order to comprehend intensively the energy spectrum character of the source, a multi-wavelength quasisimultaneous observation campaign has been organized by Hayashida et al (2012).…”

Section: Apply To 3c 279mentioning

confidence: 99%

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Modelling the multi-wavelength emission of flat-spectrum radio quasar 3C 279

Zheng

Yang

2016

Mon. Not. R. Astron. Soc.

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We employ a length-dependent conical jet model for the jet structure and emission properties of flat spectrum radio quasar 3C 279 in the steady state. In the model, ultrarelativistic leptons are injected at the base of jet and propagate along the jet structure, non-thermal photons are produced by both synchrotron emission and inverse Comtpon scattering off synchrotron photons and external soft photons at each segment of jet. We derive the total energy spectra contribution through integrating every segment. We apply the model to the quasi-simultaneous multi-wavelength observed data of two quiescent epoches. Using the observed radio data of source, we determine the length of jet L ∼ 100 pc, and magnetic field B 0 ∼ 0.1 − 1 G at the base of jet. Assuming a steady geometry of the jet structure and suitable physical parameters, we reproduce the multi-wavelength spectra during two quiescent observed epoches, respectively. Our results show that the initial γ-ray emission site takes place at ∼ 0.5 pc from black hole.

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Section: Discussionmentioning

confidence: 95%

Section: Apply To 3c 279mentioning

confidence: 99%

Modelling the multi-wavelength emission of flat-spectrum radio quasar 3C 279

Zheng

Yang

2016

Mon. Not. R. Astron. Soc.

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“…For low-frequency-peaked BL Lacs (LBLs) and flatspectrum radio quasars (FSRQs), it is generally accepted that leptonic models require external photon sources for Compton scattering (EC = External Compton) to produce the γ-ray emission (e.g., Dermer et al 1997;Sambruna et al 1997;Mukherjee et al 1999;Madejski et al 1999;Böttcher & Bloom 2000;Hartman et al 2001). In the case of quasars, the most prominent external radiation field might be the quasi-isotropic radiation field of the broad-line region (BLR), as long as the emission region is located within the BLR.…”

Section: Interpretation and Model Implicationsmentioning

confidence: 99%

Radio-optical-gamma-ray properties of MOJAVE AGN detected byFermi/LAT

Arshakian¹,

Böttcher²,

Torrealba³

et al. 2011

A&A

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Aims. We use a sample of 83 core-dominated active galactic nuclei (AGN) selected from the MOJAVE (Monitoring of Jets in AGN with VLBA Experiments) radio-flux-limited sample and detected with the Fermi Large Area Telescope (LAT) to study the relations between non-simultaneous radio, optical, and γ-ray measurements. Methods. We perform a multi-band statistical analysis to investigate the relations between the emissions in different bands and reproduce these relations by modeling of the spectral energy distributions of blazars.Results. There is a significant correlation between the γ-ray luminosity and the optical nuclear and radio (15 GHz) luminosities of blazars. We report a well defined positive correlation between the γ-ray luminosity and the radio-optical loudness for quasars and BL Lacertae type objects (BL Lacs). A strong positive correlation is found between the radio luminosity and the γ-ray-optical loudness for quasars, while a negative correlation between the optical luminosity and the γ-ray-radio loudness is present for BL Lacs. Modeling of these correlations with a simple leptonic jet model for blazars indicates that variations of the accretion disk luminosity (and hence the jet power) is able to reproduce the trends observed in most of the correlations. To reproduce all observed correlations, variations of several parameters, such as the accretion power, jet viewing angle, Lorentz factor, and magnetic field of the jet, are required.

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“…The high energy spectrum of FSRQs thus contains a prominent contribution from EC processes (e.g. Mukherjee et al 1999;Hartman et al 2001) while that of HSPs can be sufficiently fit with SSC models (Pian et al 1998;Bottcher et al 2002). The ISPs and LSP BL Lacs being intermediate between these classes then require to account for a non-neglible contribution from EC processes to reproduce the high energy spectrum (Madejski et al 1999;Bottcher & Bloom 2000).…”

Section: +714mentioning

confidence: 99%

Signature of inverse Compton emission from blazars

Gaur

Mohan

Wierzcholska

et al. 2017

Monthly Notices of the Royal Astronomical Society

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Blazars are classified into high, intermediate and low energy peaked sources based on the location of their synchrotron peak. This lies in infra-red/optical to ultra-violet bands for low and intermediate peaked blazars. The transition from synchrotron to inverse Compton emission falls in the X-ray bands for such sources. We present the spectral and timing analysis of 14 low and intermediate energy peaked blazars observed with XMMNewton spanning 31 epochs. Parametric fits to X-ray spectra helps constrain the possible location of transition from the high energy end of the synchrotron to the low energy end of the inverse Compton emission. In seven sources in our sample, we infer such a transition and constrain the break energy in the range 0.6 10 keV. The Lomb-Scargle periodogram is used to estimate the power spectral density (PSD) shape. It is well described by a power law in a majority of light curves, the index being flatter compared to general expectation from AGN, ranging here between 0.01 and 1.12, possibly due to short observation durations resulting in an absence of long term trends. A toy model involving synchrotron self-Compton (SSC) and external Compton (EC; disk, broad line region, torus) mechanisms are used to estimate magnetic field strength 0.03 -0.88 G in sources displaying the energy break and infer a prominent EC contribution. The timescale for variability being shorter than synchrotron cooling implies steeper PSD slopes which are inferred in these sources.

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Multiepoch Multiwavelength Spectra and Models for Blazar 3C 279

Cited by 135 publications

References 68 publications

Modelling the multi-wavelength emission of flat-spectrum radio quasar 3C 279

Modelling the multi-wavelength emission of flat-spectrum radio quasar 3C 279

Radio-optical-gamma-ray properties of MOJAVE AGN detected byFermi/LAT

Signature of inverse Compton emission from blazars

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