Multi-wavelength characterization of the blazar S5~0716+714 during an   unprecedented outburst phase

MAGIC Collaboration: M. L. Ahnen (1); S. Ansoldi (2,20); L. A.; Antonelli (3); C. Arcaro (4,27); D. Baack (5); A. Babi\'c (6); B. Banerjee; (7); P. Bangale (8); U. Barres de Almeida (8,9); J. A. Barrio (10); J.; Becerra Gonz\'alez (11); W. Bednarek (12); E. Bernardini (4,13,23,27); R. Ch.; Berse (5); A. Berti (2,24); W. Bhattacharyya (13); A. Biland (1); O. Blanch; (14); G. Bonnoli (15); R. Carosi (15); A. Carosi (3); G. Ceribella (8); A.; Chatterjee (7); S. M. Colak (14); P. Colin (8); E. Colombo (11); J. L.; Contreras (10); J. Cortina (14); S. Covino (3); P. Cumani (14); P. Da Vela; (15); F. Dazzi (3); A. De Angelis (4,27); B. De Lotto (2); M. Delfino; (14,25); J. Delgado (14); F. Di Pierro (4,27); A. Dom\'inguez (10); D.; Dominis Prester (6); D. Dorner (16); M. Doro (4,27); S. Einecke (5); D.; Elsaesser (5); V. Fallah Ramazani (17); A. Fern\'andez-Barral (4,14,27); D.; Fidalgo (10); M. V. Fonseca (10); L. Font (18); C. Fruck (8); D. Galindo; (19); S. Gallozzi (3); R. J. Garc\'ia L\'opez (11); M. Garczarczyk (13); M.; Gaug (18); P. Giammaria (3); N. Godinovi\'c (6); D. Gora (13); D. Guberman; (14); D. Hadasch (20); A. Hahn (8); T. Hassan (14); M. Hayashida (20); J.; Herrera (11); J. Hose (8); D. Hrupec (6); K. Ishio (8); Y. Konno (20); H.; Kubo (20); J. Kushida (20); D. Kuve\v{z}di\'c (6); D. Lelas (6); E. Lindfors; (17); S. Lombardi (3); F. Longo (2,24); M. L\'opez (10); C. Maggio (18); P.; Majumdar (7); M. Makariev (21); G. Maneva (21); M. Manganaro (11); K.; Mannheim (16); L. Maraschi (3); M. Mariotti (4,27); M. Mart\'inez (14); S.; Masuda (20); D. Mazin (8,20); K. Mielke (5); M. Minev (21); J. M. Miranda; (15); R. Mirzoyan (8); A. Moralejo (14); V. Moreno (18); E. Moretti (8); T.; Nagayoshi (20); V. Neustroev (17); A. Niedzwiecki (12); M. Nievas Rosillo; (10); C. Nigro (13); K. Nilsson (17); D. Ninci (14); K. Nishijima (20); K.; Noda (14); L. Nogu\'es (14); S. Paiano (4,27); J. Palacio (14); D. Paneque; (8); R. Paoletti (15); J. M. Paredes (19); G. Pedaletti (13); M. Peresano; (2); M. Persic (2,26); P. G. Prada Moroni (22); E. Prandini (4,27); I. Puljak; (6); J. R. Garcia (8); I. Reichardt (4,27); W. Rhode (5); M. Rib\'o (19); J.; Rico (14); C. Righi (3); A. Rugliancich (15); T. Saito (20); K. Satalecka; (13); T. Schweizer (8); J. Sitarek (12,20); I. \v{S}nidari\'c (6); D.; Sobczynska (12); A. Stamerra (3); M. Strzys (8); T. Suri\'c (6); M. Takahashi; (20); L. Takalo (17); F. Tavecchio (3); P. Temnikov (21); T. Terzi\'c (6); M.; Teshima (8,20); N. Torres-Alb\`a (19); A. Treves (2); S. Tsujimoto (20); G.; Vanzo (11); M. Vazquez Acosta (11); I. Vovk (8); J. E. Ward (14); M. Will; (8); D. Zari\'c (6); Fermi-LAT Collaboration; D. Bastieri (27); D. Gasparrini; (28); B. Lott (29); B. Rani (30) D. J. Thompson (30); MWL Collaborators; I.; Agudo (31); E. Angelakis (32); G. A. Borman (33); C. Casadio (32,31); T. S.; Grishina (34); M. Gurwell (35); T. Hovatta (36,37,38); R. Itoh (39); E.; J\"arvel\"a (36,37); H. Jermak (47); S. Jorstad (34,40); E. N. Kopatskaya; (34); A. Kraus (32); T. P. Krichbaum (32); N. P. M. Kuin (41); A.; L\"ahteenm\"aki (36,37); V. M. Larionov (34,42); L. V. Larionova (34); A. Y.; Lien (30); G. Madejski (43); A. Marscher (40); I. Myserlis (32); W.; Max-Moerbeck (32); S. N. Molina (31); D. A. Morozova (34); K. Nalewajko (44),; T. J. Pearson (45); V. Ramakrishnan (36); A. C. S. Readhead (45); R. A.; Reeves (46); S. S. Savchenko (34); I. A. Steele (47); M. Tornikoski (36); Yu.; V. Troitskaya (34); I. Troitsky (34); A. A. Vasilyev (34); J. Anton Zensus; (32) ((1) ETH Zurich; Institute for Particle Physics; Zurich; Switzerland,; (2) Universit\`a di Udine; and INFN Trieste; I-33100 Udine; Italy; (3) INAF -; National Institute for Astrophysics; Roma; Italy; (4) Universit\`a di Padova,; (5) Technische Universit\"at Dortmund; Dortmund; Germany; (6) Croatian MAGIC; Consortium: Rudjer Boskovic Institute; University of Rijeka; University of; Split - FESB; University of Zagreb-FER; University of Osijek; Split; Croatia,; (7) Saha Institute of Nuclear Physics; HBNI; Kolkata; India; (8); Max-Planck-Institut f\"ur Physik; M\"unchen; Germany; (9) now at Centro; Brasileiro de Pesquisas F\'isicas (CBPF); Rio de Janeiro; Brasil; (10) Unidad; de Part\'iculas y Cosmolog\'ia (UPARCOS); Universidad Complutense; E-28040; Madrid; Spain; (11) Inst. de Astrof\'isica de Canarias; and Universidad de La; Laguna; Dpto. Astrof\'isica; La Laguna; Spain; (12) Division of Astrophysics,; University of Lodz; Lodz; Poland; (13) Deutsches Elektronen-Synchrotron; (DESY) Zeuthen; Zeuthen; Germany; (14) Institut de F\'isica d'Altes Energies; (IFAE); The Barcelona Institute of Science; Technology (BIST); E-08193; Bellaterra (Barcelona); Spain; Bellaterra (Barcelona); Spain; (15); Dipartimento SFTA; Sezione di Fisica; Universit\`a di Siena; INFN sez. di; Pisa; Siena; Italy; (16) Institut f\"ur Theoretische Physik und Astrophysik -; Fakult\"at f\"ur Physik und Astronomie - Universit\"at W\"urzburg,; W\"urzburg; Germany; (17) Finnish MAGIC Consortium: Tuorla Observatory and; Finnish Centre of Astronomy with ESO (FINCA); University of Turku,; Vaisalantie 20; FI-21500 Piikki\"o; Astronomy Division; University of Oulu,; FIN-90014 University of Oulu; Finland; Piikki\"o; Finland; (18) Universitat; Aut\`onoma de Barcelona; Barcelona; Spain; (19) Universitat de Barcelona,; Barcelona; Spain; (20) Japanese MAGIC Consortium; Kyoto; Japan; (21); Institute for Nuclear Research; Nuclear Energy; Sofia; Bulgaria; (22); Universit\`a di Pisa; and INFN Pisa; Pisa; Italy; (23) Humboldt University of; Berlin; Institut f\"ur Physik D-12489 Berlin Germany; (24) also at; Dipartimento di Fisica; Universit\`a di Trieste; I-34127 Trieste; Italy; (25); also at Port d'Informaci\'o Cient\'ifica (PIC); E-08193 Bellaterra; (Barcelona); Spain; (26) also at INAF-Trieste; Dept. of Physics \&; Astronomy; University of Bologna; (27) INFN; I-35131 Padova; Italy; (28) ASI; Science Data Center; INFN; 06123 Perugia; Italy; (29) CEN; Bordeaux-Gradignan; 33170 Gradignan; France; (30) NASA Goddard Space Flight; Center; Greenbelt; MD 20771; USA; (31) Instituto de Astrof\'isica de; Andaluc\'ia (CSIC); Apartado 3004; E-18080 Granada; Spain; (32); Max--Planck--Institut f\"ur Radioastronomie; Auf dem H\"ugel; 69; D--53121,; Bonn; Germany; (33) Crimean Astrophysics Observatory; P/O Nauchny; Crimea,; 298409; Russia; (34) Astron. Inst.; St. Petersburg State University; Russia,; (35) Harvard-Smithsonian Center for Astrophysics; MA 02138 Cambridge; USA,; (36) Mets\"ahovi Radio Observatory; Aalto University; FI-02540 Kylm\"al\"a,; (37) Department of Electronics; Nanoengineering; Aalto University,; FI-00076 Aalto; Finland; (38) Tuorla Observatory; University of Turku,; V\"ais\"al\"antie 20; 21500 Piikki\"o; Finland; (39) Department of Physical; Science; Hiroshima University; Higashi-hiroshima; 739-8526; Japan; (40); Institute for Astrophysical Research; Boston University; Boston MA 02215,; (41) Mullard Space Science Lab.; UCL; Dorking; RH5 6NT; UK; (42) Pulkovo; Observatory; St.-Petersburg; Russia; (43) Kavli Institute for Particle; Astrophysics; Cosmology; Stanford University; SLAC National Accelerator; Laboratory; 2575 Sand Hill Road; Menlo Park; CA 94025; (44) Nicolaus; Copernicus Astronomical Center; Polish Academy of Sciences; Bartycka 18,; 00-716 Warsaw; Poland; (45) Owens Valley Radio Observatory; California; Institute of Technology; Pasadena; CA 91125; USA; (46) CePIA; Astronomy; Department; Universidad de Concepcion; Casilla 160-C; Concepcion; Chile; (47); Astrophysics Research Institute; Liverpool John Moores University; Brownlow; Hill; Liverpool; L3 5RF; UK)

arXiv:1807.00413·astro-ph.HE·January 29, 2020

Multi-wavelength characterization of the blazar S5~0716+714 during an unprecedented outburst phase

MAGIC Collaboration: M. L. Ahnen (1), S. Ansoldi (2,20), L. A., Antonelli (3), C. Arcaro (4,27), D. Baack (5), A. Babi\'c (6), B. Banerjee, (7), P. Bangale (8), U. Barres de Almeida (8,9), J. A. Barrio (10), J., Becerra Gonz\'alez (11), W. Bednarek (12), E. Bernardini (4,13,23

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TL;DR

This study presents a comprehensive multi-wavelength analysis of the blazar S5~0716+714 during an unprecedented outburst, revealing complex emission mechanisms, jet dynamics, and a new redshift estimate through simultaneous observations across the electromagnetic spectrum.

Contribution

It introduces a detailed multi-wavelength dataset during a major outburst and demonstrates the necessity of a two-zone model to explain the broadband emission, along with insights into jet interactions and EVPA rotation.

Findings

01

First multi-wavelength simultaneous data from radio to VHE during outburst.

02

Broadband SED requires a two-zone emission model.

03

VHE emission linked to jet knot interactions and shock dynamics.

Abstract

The BL Lac object S5~0716+714, a highly variable blazar, underwent an impressive outburst in January 2015 (Phase A), followed by minor activity in February (Phase B). The MAGIC observations were triggered by the optical flux observed in Phase A, corresponding to the brightest ever reported state of the source in the R-band. The comprehensive dataset collected is investigated in order to shed light on the mechanism of the broadband emission. Multi-wavelength light curves have been studied together with the broadband Spectral Energy Distributions (SEDs). The data set collected spans from radio, optical photometry and polarimetry, X-ray, high-energy (HE, 0.1 GeV < E < 100 GeV) with \textit{Fermi}-LAT to the very-high-energy (VHE, E>100 GeV) with MAGIC. The flaring state of Phase A was detected in all the energy bands, providing for the first time a multi-wavelength sample of simultaneous…

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