The detection of the blazar S4 0954+65 at very-high-energy with the   MAGIC telescopes during an exceptionally high optical state

MAGIC Collaboration: M. L. Ahnen (1); S. Ansoldi (2,20); L. A.; Antonelli (3); C. Arcaro (4); D. Baack (5); A. Babi\'c (6); B. Banerjee (7),; P. Bangale (8); U. Barres de Almeida (8,9); J. A. Barrio (10); W. Bednarek; (11); E. Bernardini (4,12,23); R. Ch. Berse (5); A. Berti (2) (24); W.; Bhattacharyya (12); A. Biland (1); O. Blanch (13); G. Bonnoli (14); R. Carosi; (14); A. Carosi (3); G. Ceribella (8); A. Chatterjee (7); S. M. Colak (13),; P. Colin (8); E. Colombo (15); J. L. Contreras (10); J. Cortina (13); S.; Covino (3); P. Cumani (13); P. Da Vela (14); F. Dazzi (3); A. De Angelis (4),; B. De Lotto (2); M. Delfino (13,25); J. Delgado (13); F. Di Pierro (4); A.; Dom\'inguez (10); D. Dominis Prester (6); D. Dorner (16); M. Doro (4); S.; Einecke (5); D. Elsaesser (5); V. Fallah Ramazani (17); A. Fern\'andez-Barral; (13); D. Fidalgo (10); M. V. Fonseca (10); L. Font (18); C. Fruck (8); D.; Galindo (19); R. J. Garc\'ia L\'opez (15); M. Garczarczyk (12); M. Gaug (18),; P. Giammaria (3); N. Godinovi\'c (6); D. Gora (12); D. Guberman (13); D.; Hadasch (20); A. Hahn (8); T. Hassan (13); M. Hayashida (20); J. Herrera; (15); 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 (15); K. Mannheim (16),; L. Maraschi (3); M. Mariotti (4); M. Mart\'inez (13); S. Masuda (20); D.; Mazin (8,20); K. Mielke (5); M. Minev (21); J. M. Miranda (16); R. Mirzoyan; (8); A. Moralejo (13); V. Moreno (18); E. Moretti (8); T. Nagayoshi (20); V.; Neustroev (17); A. Niedzwiecki (11); M. Nievas Rosillo (10); C. Nigro (12),; K. Nilsson (17); D. Ninci (13); K. Nishijima (20); K. Noda (13); L. Nogu\'es; (13); S. Paiano (4); J. Palacio (13); D. Paneque (8); R. Paoletti (14); J. M.; Paredes (19); G. Pedaletti (12); M. Peresano (2); M. Persic (2) (26); P. G.; Prada Moroni (22); E. Prandini (4); I. Puljak (6); J. R. Garcia (8); I.; Reichardt (4); W. Rhode (5); M. Rib\'o (19); J. Rico (13); C. Righi (3); A.; Rugliancich (14); T. Saito (20); K. Satalecka (12); T. Schweizer (8); J.; Sitarek (11,20); I. \v{S}nidari\'c (6); D. Sobczynska (11); 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 (15); M.; Vazquez Acosta (15); I. Vovk (8); J. E. Ward (13); M. Will (8); D. Zari\'c; (6); J. Becerra Gonz\'alez (15) (27); Y. Tanaka (28); R. Ojha (27) (29) (30),; J. Finke (31) (for the Fermi-LAT Collaboration); A. L\"ahteenm\"aki (32; 33,; 34); E. J\"arvel\"a (32,33); M. Tornikoski (32); V. Ramakrishnan (32); T.; Hovatta (34); S. G. Jorstad (36,37); A. P. Marscher (37); V. M. Larionov; (36,38); G. A. Borman (39); T. S. Grishina (36); E. N. Kopatskaya (36); L. V.; Larionova (36); D. A. Morozova (36); S. S. Savchenko (36); Yu. V. Troitskaya; (36); I. S. Troitsky (36); A. A. Vasilyev (36); I. Agudo (40); S. N. Molina; (40); C. Casadio (41,40); M. Gurwell (42); M. I. Carnerero (43); C. Protasio; (15,44); J.A Acosta Pulido (15,44); ((1) ETH Zurich; Institute for Particle; Physics; Zurich; Switzerland; (2) Universit\`a di Udine; INFN; sezione di; Trieste; Italy; Udine; Italy; (3) INAF - National Institute for Astrophysics,; Roma; Italy; (4) Dipartimento di Fisica e Astronomia dell'Universit\`a and; Sezione INFN; Padova; Italy; Padova; Italy; (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; Madrid; Spain,; (11) Division of Astrophysics; University of Lodz; Lodz; Poland; (12); Deutsches Elektronen-Synchrotron (DESY) Zeuthen; Zeuthen; Germany; (13); Institut de F\'isica d'Altes Energies (IFAE); The Barcelona Institute of; Science; Technology (BIST); E-08193 Bellaterra (Barcelona); Spain,; Bellaterra (Barcelona); Spain; (14) Dipartimento SFTA; Sezione di Fisica,; Universit\`a di Siena; INFN sez. di Pisa; Siena; Italy; (15) Instituto de; Astrofisica de Canarias; La Laguna (Tenerife); Spain; (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; 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) Universita 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; (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) NASA Goddard Space Flight Center; Greenbelt; MD; 20771; USA; Department of Physics; Department of Astronomy; University; of Maryland; (28) Hiroshima Astrophysical Science Center; Hiroshima; Japan,; (29) University of Maryland; Baltimore County; (30) The Catholic University; of America; Washington DC; USA; (31) Space Science Division; NRL; Washington; DC; USA; (32) Aalto University Metsahovi Radio Observatory; Finland; (33); Aalto University Department of Electronics; Nanoengineering; Finland; (34); Tartu Observatory; Estonia; (35) Tuorla Observatory; University of Turku,; (36) Astron. Inst.; St. Petersburg State Univ.; Russia; (37) Institute for; Astrophysical Research; Boston University; USA; (38) Pulkovo Observatory; St.; Petersburg; Russia; (39) Crimean Astrophysical Observatory; (40) Instituto de; Astrof\'isica de Andaluc\'ia (CSIC); (41) Max--Planck--Institut f\"ur; Radioastronomie; (42) Harvard-Smithsonian Center for Astrophysics; Cambridge,; MA USA; (43) INAF; Osservatorio Astrofisico di Torino; (44) Departamento de; Astrofisica; Universidad de La Laguna)

arXiv:1801.04138·astro-ph.HE·August 15, 2019

The detection of the blazar S4 0954+65 at very-high-energy with the MAGIC telescopes during an exceptionally high optical state

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

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TL;DR

This paper reports the first detection of the blazar S4 0954+65 at very-high-energy gamma rays during an exceptional optical outburst, analyzing multiwavelength data to understand jet physics and emission mechanisms.

Contribution

It presents the first VHE detection of S4 0954+65 and models its emission with external Compton scattering, linking optical polarization and jet features to high-energy activity.

Findings

01

First VHE detection of S4 0954+65 by MAGIC

02

Optical polarization rotation coincides with VHE flare

03

Jet features emerge during high-energy activity

Abstract

The very-high-energy (VHE, $≳ 100$ GeV) $γ$ -ray MAGIC observations of the blazar S4 0954+65, were triggered by an exceptionally high flux state of emission in the optical. This blazar has a disputed redshift of z=0.368 or z $⩾$ 0.45 and an uncertain classification among blazar subclasses. The exceptional source state described here makes for an excellent opportunity to understand physical processes in the jet of S4 0954+65 and thus contribute to its classification. We investigate the multiwavelength (MWL) light curve and spectral energy distribution (SED) of the S4 0954+65 blazar during an enhanced state in February 2015 and put it in context with possible emission scenarios. We collect photometric data in radio, optical, X-ray, and $γ$ ray. We study both the optical polarization and the inner parsec-scale jet behavior with 43 GHz data. Observations with the MAGIC…

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