The awakening of BL Lacertae: Observations by fermi, swift and the GASP-WEBT

C. M. Raiteri; M. Villata; F. D'Ammando; V. M. Larionov; M. A. Gurwell; D. O. Mirzaqulov; P. S. Smith; J. A. Acosta-Pulido; I. Agudo; M. J. Arévalo; R. Bachev; E. Benítez; A. Berdyugin; D. A. Blinov; G. A. Borman; M. Böttcher; V. Bozhilov; M. I. Carnerero; D. Carosati; C. Casadio; W. P. Chen; V. T. Doroshenko; Yu S. Efimov; N. V. Efimova; Sh A. Ehgamberdiev; J. L. Gòmez; P. A. González-Morales; D. Hiriart; S. Ibryamov; Y. Jadhav; S. G. Jorstad; M. Joshi; V. Kadenius; S. A. Klimanov; M. Kohli; T. S. Konstantinova; E. N. Kopatskaya; E. Koptelova; G. Kimeridze; O. M. Kurtanidze; E. G. Larionova; L. V. Larionova; R. Ligustri; E. Lindfors; A. P. Marscher; B. McBreen; I. M. McHardy; Y. Metodieva; S. N. Molina; D. A. Morozova; S. V. Nazarov; M. G. Nikolashvili; K. Nilsson; D. N. Okhmat; E. Ovcharov; N. Panwar; M. Pasanen; S. Peneva; J. Phipps; N. G. Pulatova; R. Reinthal; J. A. Ros; A. C. Sadun; R. D. Schwartz; E. Semkov; S. G. Sergeev; L. A. Sigua; A. Sillanpää; N. Smith; K. Stoyanov; A. Strigachev; L. O. Takalo; B. Taylor; C. Thum; I. S. Troitsky; A. Valcheva; A. E. Wehrle; H. Wiesemeyer

doi:10.1093/mnras/stt1672

The awakening of BL Lacertae: Observations by fermi, swift and the GASP-WEBT

C. M. Raiteri
, M. Villata
, F. D'Ammando
, V. M. Larionov
, M. A. Gurwell
, D. O. Mirzaqulov
, P. S. Smith
, J. A. Acosta-Pulido
, I. Agudo
, M. J. Arévalo
, R. Bachev
, E. Benítez
, A. Berdyugin
, D. A. Blinov
, G. A. Borman
, M. Böttcher
, V. Bozhilov
, M. I. Carnerero
, D. Carosati
, C. Casadio

W. P. Chen, V. T. Doroshenko, Yu S. Efimov, N. V. Efimova, Sh A. Ehgamberdiev, J. L. Gòmez, P. A. González-Morales, D. Hiriart, S. Ibryamov, Y. Jadhav, S. G. Jorstad, M. Joshi, V. Kadenius, S. A. Klimanov, M. Kohli, T. S. Konstantinova, E. N. Kopatskaya, E. Koptelova, G. Kimeridze, O. M. Kurtanidze, E. G. Larionova, L. V. Larionova, R. Ligustri, E. Lindfors, A. P. Marscher, B. McBreen, I. M. McHardy, Y. Metodieva, S. N. Molina, D. A. Morozova, S. V. Nazarov, M. G. Nikolashvili, K. Nilsson, D. N. Okhmat, E. Ovcharov, N. Panwar, M. Pasanen, S. Peneva, J. Phipps, N. G. Pulatova, R. Reinthal, J. A. Ros, A. C. Sadun, R. D. Schwartz, E. Semkov, S. G. Sergeev, L. A. Sigua, A. Sillanpää, N. Smith, K. Stoyanov, A. Strigachev, L. O. Takalo, B. Taylor, C. Thum, I. S. Troitsky, A. Valcheva, A. E. Wehrle, H. Wiesemeyer

Department of Physics

National Institute for Astrophysics
University of Perugia
Istituto di Astrofisica Spaziale e Fisica Cosmica di Bologna
St. Petersburg State University
RAS - Pulkovo Astronomical Observatory
Academy of Sciences of the Republic of Uzbekistan
University of Arizona
Instituto de Astrofísica de Canarias
University of La Laguna
CSIC - Institute of Astrophysics of Andalusia
Boston University
Bulgarian Academy of Sciences
Universidad Nacional Autónoma de México
University of Turku
University of Crete
Russian Academy of Sciences
North West University
Ohio University
Sofia University St. Kliment Ohridski
National Central University
Lomonosov Moscow State University
National Taiwan University
Heidelberg University
University College Dublin
University of Southampton
National Astronomical Research Institute of Thailand
University of Colorado Denver
Munster Technological University
Lowell Observatory
Space Science Institute
Max Planck Institute for Radio Astronomy

Research output: Contribution to journal › Article › peer-review

124 Scopus citations

Abstract

Since the launch of the Fermi satellite, BL Lacertae has been moderately active at γ-rays and optical frequencies until 2011 May, when the source started a series of strong flares. The exceptional optical sampling achieved by the GLAST-AGILE Support Program of the Whole Earth Blazar Telescope in collaboration with the Steward Observatory allows us to perform a detailed comparison with the daily γ-ray observations by Fermi. Discrete correlation analysis between the optical and γ-ray emission reveals correlation with a time lag of 0 ± 1 d, which suggests cospatiality of the corresponding jet emitting regions. A better definition of the time lag is hindered by the daily gaps in the sampling of the extremely fast flux variations. In general, optical flares present more structure and develop on longer time-scales than corresponding γ-ray flares. Observations at X-rays and at millimetre wavelengths reveal a common trend, which suggests that the region producing the mm and X-ray radiation is located downstream from the optical and γ-ray-emitting zone in the jet. The mean optical degree of polarization slightly decreases over the considered period and in general it is higher when the flux is lower. The optical electric vector polarization angle (EVPA) shows a preferred orientation of about 15°, nearly aligned with the radio core EVPA and mean jet direction. Oscillations around it increase during the 2011-2012 outburst. We investigate the effects of a geometrical interpretation of the long-term flux variability on the polarization. A helical magnetic field model predicts an evolution of the mean polarization that is in reasonable agreement with the observations. These can be fully explained by introducing slight variations in the compression factor in a transverse shock waves model.

Original language	English
Pages (from-to)	1530-1545
Number of pages	16
Journal	Monthly Notices of the Royal Astronomical Society
Volume	436
Issue number	2
DOIs	https://doi.org/10.1093/mnras/stt1672
State	Published - Dec 2013

Keywords

BL lacertae objects:general
BL lacertae objects:individual:BL lacertae
Galaxies:active
Jets.
galaxies

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10.1093/mnras/stt1672

Cite this

Raiteri, C. M., Villata, M., D'Ammando, F., Larionov, V. M., Gurwell, M. A., Mirzaqulov, D. O., Smith, P. S., Acosta-Pulido, J. A., Agudo, I., Arévalo, M. J., Bachev, R., Benítez, E., Berdyugin, A., Blinov, D. A., Borman, G. A., Böttcher, M., Bozhilov, V., Carnerero, M. I., Carosati, D., ... Wiesemeyer, H. (2013). The awakening of BL Lacertae: Observations by fermi, swift and the GASP-WEBT. Monthly Notices of the Royal Astronomical Society, 436(2), 1530-1545. https://doi.org/10.1093/mnras/stt1672

@article{d4d0dd7d8c004acba75b86167af1dead,

title = "The awakening of BL Lacertae: Observations by fermi, swift and the GASP-WEBT",

abstract = "Since the launch of the Fermi satellite, BL Lacertae has been moderately active at γ-rays and optical frequencies until 2011 May, when the source started a series of strong flares. The exceptional optical sampling achieved by the GLAST-AGILE Support Program of the Whole Earth Blazar Telescope in collaboration with the Steward Observatory allows us to perform a detailed comparison with the daily γ-ray observations by Fermi. Discrete correlation analysis between the optical and γ-ray emission reveals correlation with a time lag of 0 ± 1 d, which suggests cospatiality of the corresponding jet emitting regions. A better definition of the time lag is hindered by the daily gaps in the sampling of the extremely fast flux variations. In general, optical flares present more structure and develop on longer time-scales than corresponding γ-ray flares. Observations at X-rays and at millimetre wavelengths reveal a common trend, which suggests that the region producing the mm and X-ray radiation is located downstream from the optical and γ-ray-emitting zone in the jet. The mean optical degree of polarization slightly decreases over the considered period and in general it is higher when the flux is lower. The optical electric vector polarization angle (EVPA) shows a preferred orientation of about 15°, nearly aligned with the radio core EVPA and mean jet direction. Oscillations around it increase during the 2011-2012 outburst. We investigate the effects of a geometrical interpretation of the long-term flux variability on the polarization. A helical magnetic field model predicts an evolution of the mean polarization that is in reasonable agreement with the observations. These can be fully explained by introducing slight variations in the compression factor in a transverse shock waves model.",

keywords = "BL lacertae objects:general, BL lacertae objects:individual:BL lacertae, Galaxies:active, Jets., galaxies",

author = "Raiteri, \{C. M.\} and M. Villata and F. D'Ammando and Larionov, \{V. M.\} and Gurwell, \{M. A.\} and Mirzaqulov, \{D. O.\} and Smith, \{P. S.\} and Acosta-Pulido, \{J. A.\} and I. Agudo and Ar{\'e}valo, \{M. J.\} and R. Bachev and E. Ben{\'i}tez and A. Berdyugin and Blinov, \{D. A.\} and Borman, \{G. A.\} and M. B{\"o}ttcher and V. Bozhilov and Carnerero, \{M. I.\} and D. Carosati and C. Casadio and Chen, \{W. P.\} and Doroshenko, \{V. T.\} and Efimov, \{Yu S.\} and Efimova, \{N. V.\} and Ehgamberdiev, \{Sh A.\} and G{\`o}mez, \{J. L.\} and Gonz{\'a}lez-Morales, \{P. A.\} and D. Hiriart and S. Ibryamov and Y. Jadhav and Jorstad, \{S. G.\} and M. Joshi and V. Kadenius and Klimanov, \{S. A.\} and M. Kohli and Konstantinova, \{T. S.\} and Kopatskaya, \{E. N.\} and E. Koptelova and G. Kimeridze and Kurtanidze, \{O. M.\} and Larionova, \{E. G.\} and Larionova, \{L. V.\} and R. Ligustri and E. Lindfors and Marscher, \{A. P.\} and B. McBreen and McHardy, \{I. M.\} and Y. Metodieva and Molina, \{S. N.\} and Morozova, \{D. A.\} and Nazarov, \{S. V.\} and Nikolashvili, \{M. G.\} and K. Nilsson and Okhmat, \{D. N.\} and E. Ovcharov and N. Panwar and M. Pasanen and S. Peneva and J. Phipps and Pulatova, \{N. G.\} and R. Reinthal and Ros, \{J. A.\} and Sadun, \{A. C.\} and Schwartz, \{R. D.\} and E. Semkov and Sergeev, \{S. G.\} and Sigua, \{L. A.\} and A. Sillanp{\"a}{\"a} and N. Smith and K. Stoyanov and A. Strigachev and Takalo, \{L. O.\} and B. Taylor and C. Thum and Troitsky, \{I. S.\} and A. Valcheva and Wehrle, \{A. E.\} and H. Wiesemeyer",

year = "2013",

month = dec,

doi = "10.1093/mnras/stt1672",

language = "English",

volume = "436",

pages = "1530--1545",

number = "2",

}

Raiteri, CM, Villata, M, D'Ammando, F, Larionov, VM, Gurwell, MA, Mirzaqulov, DO, Smith, PS, Acosta-Pulido, JA, Agudo, I, Arévalo, MJ, Bachev, R, Benítez, E, Berdyugin, A, Blinov, DA, Borman, GA, Böttcher, M, Bozhilov, V, Carnerero, MI, Carosati, D, Casadio, C, Chen, WP, Doroshenko, VT, Efimov, YS, Efimova, NV, Ehgamberdiev, SA, Gòmez, JL, González-Morales, PA, Hiriart, D, Ibryamov, S, Jadhav, Y, Jorstad, SG, Joshi, M, Kadenius, V, Klimanov, SA, Kohli, M, Konstantinova, TS, Kopatskaya, EN, Koptelova, E, Kimeridze, G, Kurtanidze, OM, Larionova, EG, Larionova, LV, Ligustri, R, Lindfors, E, Marscher, AP, McBreen, B, McHardy, IM, Metodieva, Y, Molina, SN, Morozova, DA, Nazarov, SV, Nikolashvili, MG, Nilsson, K, Okhmat, DN, Ovcharov, E, Panwar, N, Pasanen, M, Peneva, S, Phipps, J, Pulatova, NG, Reinthal, R, Ros, JA, Sadun, AC, Schwartz, RD, Semkov, E, Sergeev, SG, Sigua, LA, Sillanpää, A, Smith, N, Stoyanov, K, Strigachev, A, Takalo, LO, Taylor, B, Thum, C, Troitsky, IS, Valcheva, A, Wehrle, AE & Wiesemeyer, H 2013, 'The awakening of BL Lacertae: Observations by fermi, swift and the GASP-WEBT', Monthly Notices of the Royal Astronomical Society, vol. 436, no. 2, pp. 1530-1545. https://doi.org/10.1093/mnras/stt1672

TY - JOUR

T1 - The awakening of BL Lacertae

T2 - Observations by fermi, swift and the GASP-WEBT

AU - Raiteri, C. M.

AU - Villata, M.

AU - D'Ammando, F.

AU - Larionov, V. M.

AU - Gurwell, M. A.

AU - Mirzaqulov, D. O.

AU - Smith, P. S.

AU - Acosta-Pulido, J. A.

AU - Agudo, I.

AU - Arévalo, M. J.

AU - Bachev, R.

AU - Benítez, E.

AU - Berdyugin, A.

AU - Blinov, D. A.

AU - Borman, G. A.

AU - Böttcher, M.

AU - Bozhilov, V.

AU - Carnerero, M. I.

AU - Carosati, D.

AU - Casadio, C.

AU - Chen, W. P.

AU - Doroshenko, V. T.

AU - Efimov, Yu S.

AU - Efimova, N. V.

AU - Ehgamberdiev, Sh A.

AU - Gòmez, J. L.

AU - González-Morales, P. A.

AU - Hiriart, D.

AU - Ibryamov, S.

AU - Jadhav, Y.

AU - Jorstad, S. G.

AU - Joshi, M.

AU - Kadenius, V.

AU - Klimanov, S. A.

AU - Kohli, M.

AU - Konstantinova, T. S.

AU - Kopatskaya, E. N.

AU - Koptelova, E.

AU - Kimeridze, G.

AU - Kurtanidze, O. M.

AU - Larionova, E. G.

AU - Larionova, L. V.

AU - Ligustri, R.

AU - Lindfors, E.

AU - Marscher, A. P.

AU - McBreen, B.

AU - McHardy, I. M.

AU - Metodieva, Y.

AU - Molina, S. N.

AU - Morozova, D. A.

AU - Nazarov, S. V.

AU - Nikolashvili, M. G.

AU - Nilsson, K.

AU - Okhmat, D. N.

AU - Ovcharov, E.

AU - Panwar, N.

AU - Pasanen, M.

AU - Peneva, S.

AU - Phipps, J.

AU - Pulatova, N. G.

AU - Reinthal, R.

AU - Ros, J. A.

AU - Sadun, A. C.

AU - Schwartz, R. D.

AU - Semkov, E.

AU - Sergeev, S. G.

AU - Sigua, L. A.

AU - Sillanpää, A.

AU - Smith, N.

AU - Stoyanov, K.

AU - Strigachev, A.

AU - Takalo, L. O.

AU - Taylor, B.

AU - Thum, C.

AU - Troitsky, I. S.

AU - Valcheva, A.

AU - Wehrle, A. E.

AU - Wiesemeyer, H.

PY - 2013/12

Y1 - 2013/12

N2 - Since the launch of the Fermi satellite, BL Lacertae has been moderately active at γ-rays and optical frequencies until 2011 May, when the source started a series of strong flares. The exceptional optical sampling achieved by the GLAST-AGILE Support Program of the Whole Earth Blazar Telescope in collaboration with the Steward Observatory allows us to perform a detailed comparison with the daily γ-ray observations by Fermi. Discrete correlation analysis between the optical and γ-ray emission reveals correlation with a time lag of 0 ± 1 d, which suggests cospatiality of the corresponding jet emitting regions. A better definition of the time lag is hindered by the daily gaps in the sampling of the extremely fast flux variations. In general, optical flares present more structure and develop on longer time-scales than corresponding γ-ray flares. Observations at X-rays and at millimetre wavelengths reveal a common trend, which suggests that the region producing the mm and X-ray radiation is located downstream from the optical and γ-ray-emitting zone in the jet. The mean optical degree of polarization slightly decreases over the considered period and in general it is higher when the flux is lower. The optical electric vector polarization angle (EVPA) shows a preferred orientation of about 15°, nearly aligned with the radio core EVPA and mean jet direction. Oscillations around it increase during the 2011-2012 outburst. We investigate the effects of a geometrical interpretation of the long-term flux variability on the polarization. A helical magnetic field model predicts an evolution of the mean polarization that is in reasonable agreement with the observations. These can be fully explained by introducing slight variations in the compression factor in a transverse shock waves model.

AB - Since the launch of the Fermi satellite, BL Lacertae has been moderately active at γ-rays and optical frequencies until 2011 May, when the source started a series of strong flares. The exceptional optical sampling achieved by the GLAST-AGILE Support Program of the Whole Earth Blazar Telescope in collaboration with the Steward Observatory allows us to perform a detailed comparison with the daily γ-ray observations by Fermi. Discrete correlation analysis between the optical and γ-ray emission reveals correlation with a time lag of 0 ± 1 d, which suggests cospatiality of the corresponding jet emitting regions. A better definition of the time lag is hindered by the daily gaps in the sampling of the extremely fast flux variations. In general, optical flares present more structure and develop on longer time-scales than corresponding γ-ray flares. Observations at X-rays and at millimetre wavelengths reveal a common trend, which suggests that the region producing the mm and X-ray radiation is located downstream from the optical and γ-ray-emitting zone in the jet. The mean optical degree of polarization slightly decreases over the considered period and in general it is higher when the flux is lower. The optical electric vector polarization angle (EVPA) shows a preferred orientation of about 15°, nearly aligned with the radio core EVPA and mean jet direction. Oscillations around it increase during the 2011-2012 outburst. We investigate the effects of a geometrical interpretation of the long-term flux variability on the polarization. A helical magnetic field model predicts an evolution of the mean polarization that is in reasonable agreement with the observations. These can be fully explained by introducing slight variations in the compression factor in a transverse shock waves model.

KW - BL lacertae objects:general

KW - BL lacertae objects:individual:BL lacertae

KW - Galaxies:active

KW - Jets.

KW - galaxies

UR - https://www.scopus.com/pages/publications/84888044944

UR - https://www.scopus.com/pages/publications/84888044944#tab=citedBy

U2 - 10.1093/mnras/stt1672

DO - 10.1093/mnras/stt1672

M3 - Article

AN - SCOPUS:84888044944

SN - 0035-8711

VL - 436

SP - 1530

EP - 1545

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

ER -

The awakening of BL Lacertae: Observations by fermi, swift and the GASP-WEBT

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