A Multi-wavelength Polarimetric Study of the Blazar Cta 102 During a Gamma-ray Flare in 2012

Carolina Casadio; Jose L. Gomez; Svetlana G. Jorstad; Alan P. Marscher; Valeri M. Larionov; Paul S. Smith; Mark A. Gurwell; Anne Laehteenmaeki; Ivan Agudo; Sol N. Molina; Vishal Bala; Manasvita Joshi; Brian Taylor; Karen E. Williamson; Arkady A. Arkharov; Dmitry A. Blinov; George A. Borman; Andrea Di Paola; Tatiana S. Grishina; Vladimir A. Hagen-Thorn; Ryosuke Itoh; Evgenia N. Kopatskaya; Elena G. Larionova; Liudmila V. Larionova; Daria A. Morozova; Elizaveta Rastorgueva-Foi; Sergey G. Sergeev; Merja Tornikoski; Ivan S. Troitsky; Clemens Thum; Helmut Wiesemeyer

doi:10.1088/0004-637X/813/1/51

A Multi-wavelength Polarimetric Study of the Blazar Cta 102 During a Gamma-ray Flare in 2012

Carolina Casadio, Jose L. Gomez, Svetlana G. Jorstad, Alan P. Marscher, Valeri M. Larionov, Paul S. Smith, Mark A. Gurwell, Anne Laehteenmaeki, Ivan Agudo, Sol N. Molina, Vishal Bala, Manasvita Joshi, Brian Taylor, Karen E. Williamson, Arkady A. Arkharov, Dmitry A. Blinov, George A. Borman, Andrea Di Paola, Tatiana S. Grishina, Vladimir A. Hagen-ThornRyosuke Itoh, Evgenia N. Kopatskaya, Elena G. Larionova, Liudmila V. Larionova, Daria A. Morozova, Elizaveta Rastorgueva-Foi, Sergey G. Sergeev, Merja Tornikoski, Ivan S. Troitsky, Clemens Thum, Helmut Wiesemeyer

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Abstract

We perform a multi-wavelength polarimetric study of the quasar CTA 102 during an extraordinarily bright gamma-ray outburst detected by the Fermi Large Area Telescope in 2012 September-October when the source reached a flux of F->100 MeV = 5.2 +/- 0.4 x 10(-6) photons cm(-2) s(-1). At the same time, the source displayed an unprecedented optical and near-infrared (near-IR) outburst. We study the evolution of the parsec-scale jet with ultra-high angular resolution through a sequence of 80 total and polarized intensity Very Long Baseline Array images at 43 GHz, covering the observing period from 2007 June to 2014 June. We find that the gamma-ray outburst is coincident with flares at all the other frequencies and is related to the passage of a new superluminal knot through the radio core. The powerful gamma-ray emission is associated with a change in direction of the jet, which became oriented more closely to our line of sight (theta similar to 1 degrees.2) during the ejection of the knot and the gamma-ray outburst. During the flare, the optical polarized emission displays intra-day variability and a clear clockwise rotation of electric vector position angles (EVPAs), which we associate with the path followed by the knot as it moves along helical magnetic field lines, although a random walk of the EVPA caused by a turbulent magnetic field cannot be ruled out. We locate the gamma-ray outburst a short distance downstream of the radio core, parsecs from the black hole. This suggests that synchrotron self-Compton scattering of NIR to ultraviolet photons is the probable mechanism for the gamma-ray production.

Original language	English
Article number	51
Number of pages	14
Journal	Astrophysical Journal
Volume	813
Issue number	1
DOIs	https://doi.org/10.1088/0004-637X/813/1/51
Publication status	Published - 1 Nov 2015
Externally published	Yes

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10.1088/0004-637X/813/1/51

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Casadio, C., Gomez, J. L., Jorstad, S. G., Marscher, A. P., Larionov, V. M., Smith, P. S., Gurwell, M. A., Laehteenmaeki, A., Agudo, I., Molina, S. N., Bala, V., Joshi, M., Taylor, B., Williamson, K. E., Arkharov, A. A., Blinov, D. A., Borman, G. A., Di Paola, A., Grishina, T. S., ... Wiesemeyer, H. (2015). A Multi-wavelength Polarimetric Study of the Blazar Cta 102 During a Gamma-ray Flare in 2012. Astrophysical Journal, 813(1), Article 51. https://doi.org/10.1088/0004-637X/813/1/51

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title = "A Multi-wavelength Polarimetric Study of the Blazar Cta 102 During a Gamma-ray Flare in 2012",

abstract = "We perform a multi-wavelength polarimetric study of the quasar CTA 102 during an extraordinarily bright gamma-ray outburst detected by the Fermi Large Area Telescope in 2012 September-October when the source reached a flux of F->100 MeV = 5.2 +/- 0.4 x 10(-6) photons cm(-2) s(-1). At the same time, the source displayed an unprecedented optical and near-infrared (near-IR) outburst. We study the evolution of the parsec-scale jet with ultra-high angular resolution through a sequence of 80 total and polarized intensity Very Long Baseline Array images at 43 GHz, covering the observing period from 2007 June to 2014 June. We find that the gamma-ray outburst is coincident with flares at all the other frequencies and is related to the passage of a new superluminal knot through the radio core. The powerful gamma-ray emission is associated with a change in direction of the jet, which became oriented more closely to our line of sight (theta similar to 1 degrees.2) during the ejection of the knot and the gamma-ray outburst. During the flare, the optical polarized emission displays intra-day variability and a clear clockwise rotation of electric vector position angles (EVPAs), which we associate with the path followed by the knot as it moves along helical magnetic field lines, although a random walk of the EVPA caused by a turbulent magnetic field cannot be ruled out. We locate the gamma-ray outburst a short distance downstream of the radio core, parsecs from the black hole. This suggests that synchrotron self-Compton scattering of NIR to ultraviolet photons is the probable mechanism for the gamma-ray production.",

keywords = "Galaxies: active, Galaxies: jets, quasars: individual (CTA 102), Techniques: interferometric, Techniques: photometric, Techniques: polarimetric",

author = "Carolina Casadio and Gomez, {Jose L.} and Jorstad, {Svetlana G.} and Marscher, {Alan P.} and Larionov, {Valeri M.} and Smith, {Paul S.} and Gurwell, {Mark A.} and Anne Laehteenmaeki and Ivan Agudo and Molina, {Sol N.} and Vishal Bala and Manasvita Joshi and Brian Taylor and Williamson, {Karen E.} and Arkharov, {Arkady A.} and Blinov, {Dmitry A.} and Borman, {George A.} and {Di Paola}, Andrea and Grishina, {Tatiana S.} and Hagen-Thorn, {Vladimir A.} and Ryosuke Itoh and Kopatskaya, {Evgenia N.} and Larionova, {Elena G.} and Larionova, {Liudmila V.} and Morozova, {Daria A.} and Elizaveta Rastorgueva-Foi and Sergeev, {Sergey G.} and Merja Tornikoski and Troitsky, {Ivan S.} and Clemens Thum and Helmut Wiesemeyer",

year = "2015",

month = nov,

day = "1",

doi = "10.1088/0004-637X/813/1/51",

language = "English",

volume = "813",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "1",

}

Casadio, C, Gomez, JL, Jorstad, SG, Marscher, AP, Larionov, VM, Smith, PS, Gurwell, MA, Laehteenmaeki, A, Agudo, I, Molina, SN, Bala, V, Joshi, M, Taylor, B, Williamson, KE, Arkharov, AA, Blinov, DA, Borman, GA, Di Paola, A, Grishina, TS, Hagen-Thorn, VA, Itoh, R, Kopatskaya, EN, Larionova, EG, Larionova, LV, Morozova, DA, Rastorgueva-Foi, E, Sergeev, SG, Tornikoski, M, Troitsky, IS, Thum, C & Wiesemeyer, H 2015, 'A Multi-wavelength Polarimetric Study of the Blazar Cta 102 During a Gamma-ray Flare in 2012', Astrophysical Journal, vol. 813, no. 1, 51. https://doi.org/10.1088/0004-637X/813/1/51

TY - JOUR

T1 - A Multi-wavelength Polarimetric Study of the Blazar Cta 102 During a Gamma-ray Flare in 2012

AU - Casadio, Carolina

AU - Gomez, Jose L.

AU - Jorstad, Svetlana G.

AU - Marscher, Alan P.

AU - Larionov, Valeri M.

AU - Smith, Paul S.

AU - Gurwell, Mark A.

AU - Laehteenmaeki, Anne

AU - Agudo, Ivan

AU - Molina, Sol N.

AU - Bala, Vishal

AU - Joshi, Manasvita

AU - Taylor, Brian

AU - Williamson, Karen E.

AU - Arkharov, Arkady A.

AU - Blinov, Dmitry A.

AU - Borman, George A.

AU - Di Paola, Andrea

AU - Grishina, Tatiana S.

AU - Hagen-Thorn, Vladimir A.

AU - Itoh, Ryosuke

AU - Kopatskaya, Evgenia N.

AU - Larionova, Elena G.

AU - Larionova, Liudmila V.

AU - Morozova, Daria A.

AU - Rastorgueva-Foi, Elizaveta

AU - Sergeev, Sergey G.

AU - Tornikoski, Merja

AU - Troitsky, Ivan S.

AU - Thum, Clemens

AU - Wiesemeyer, Helmut

PY - 2015/11/1

Y1 - 2015/11/1

N2 - We perform a multi-wavelength polarimetric study of the quasar CTA 102 during an extraordinarily bright gamma-ray outburst detected by the Fermi Large Area Telescope in 2012 September-October when the source reached a flux of F->100 MeV = 5.2 +/- 0.4 x 10(-6) photons cm(-2) s(-1). At the same time, the source displayed an unprecedented optical and near-infrared (near-IR) outburst. We study the evolution of the parsec-scale jet with ultra-high angular resolution through a sequence of 80 total and polarized intensity Very Long Baseline Array images at 43 GHz, covering the observing period from 2007 June to 2014 June. We find that the gamma-ray outburst is coincident with flares at all the other frequencies and is related to the passage of a new superluminal knot through the radio core. The powerful gamma-ray emission is associated with a change in direction of the jet, which became oriented more closely to our line of sight (theta similar to 1 degrees.2) during the ejection of the knot and the gamma-ray outburst. During the flare, the optical polarized emission displays intra-day variability and a clear clockwise rotation of electric vector position angles (EVPAs), which we associate with the path followed by the knot as it moves along helical magnetic field lines, although a random walk of the EVPA caused by a turbulent magnetic field cannot be ruled out. We locate the gamma-ray outburst a short distance downstream of the radio core, parsecs from the black hole. This suggests that synchrotron self-Compton scattering of NIR to ultraviolet photons is the probable mechanism for the gamma-ray production.

AB - We perform a multi-wavelength polarimetric study of the quasar CTA 102 during an extraordinarily bright gamma-ray outburst detected by the Fermi Large Area Telescope in 2012 September-October when the source reached a flux of F->100 MeV = 5.2 +/- 0.4 x 10(-6) photons cm(-2) s(-1). At the same time, the source displayed an unprecedented optical and near-infrared (near-IR) outburst. We study the evolution of the parsec-scale jet with ultra-high angular resolution through a sequence of 80 total and polarized intensity Very Long Baseline Array images at 43 GHz, covering the observing period from 2007 June to 2014 June. We find that the gamma-ray outburst is coincident with flares at all the other frequencies and is related to the passage of a new superluminal knot through the radio core. The powerful gamma-ray emission is associated with a change in direction of the jet, which became oriented more closely to our line of sight (theta similar to 1 degrees.2) during the ejection of the knot and the gamma-ray outburst. During the flare, the optical polarized emission displays intra-day variability and a clear clockwise rotation of electric vector position angles (EVPAs), which we associate with the path followed by the knot as it moves along helical magnetic field lines, although a random walk of the EVPA caused by a turbulent magnetic field cannot be ruled out. We locate the gamma-ray outburst a short distance downstream of the radio core, parsecs from the black hole. This suggests that synchrotron self-Compton scattering of NIR to ultraviolet photons is the probable mechanism for the gamma-ray production.

KW - Galaxies: active

KW - Galaxies: jets

KW - quasars: individual (CTA 102)

KW - Techniques: interferometric

KW - Techniques: photometric

KW - Techniques: polarimetric

UR - https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=anu_research_portal_plus2&SrcAuth=WosAPI&KeyUT=WOS:000365284100051&DestLinkType=FullRecord&DestApp=WOS_CPL

U2 - 10.1088/0004-637X/813/1/51

DO - 10.1088/0004-637X/813/1/51

M3 - Article

SN - 0004-637X

VL - 813

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 51

ER -

A Multi-wavelength Polarimetric Study of the Blazar Cta 102 During a Gamma-ray Flare in 2012

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