MAGIC observations and multiwavelength properties of the quasar 3C279 in   2007 and 2009

The MAGIC Collaboration: J.Aleksi\'c (1); L.A.Antonelli (2),; P.Antoranz (3); M.Backes (4); J.A.Barrio (5); D.Bastieri (6); J.Becerra; Gonz\'alez (7,8); W.Bednarek (9); A.Berdyugin (10); K.Berger (7,8),; E.Bernardini (11); A.Biland (12); O.Blanch (1); R.K.Bock (13); A.Boller (12),; G.Bonnoli (2); D.Borla Tridon (13); I.Braun (12); T.Bretz (14,26); A.Canellas; (15); E.Carmona (13); A.Carosi (2); P.Colin (13); E.Colombo (7),; J.L.Contreras (5); J.Cortina (1); L.Cossio (16); S.Covino (2); F.Dazzi; (16,27); A.De Angelis (16); E.De Cea del Pozo (17); B.De Lotto (16),; C.Delgado Mendez (7,28); A.Diago Ortega (7,8); M.Doert (4); A.Dominguez (18),; D.Dominis Prester (19); D.Dorner (12); M.Doro (20); D.Elsaesser (14),; D.Ferenc (19); M.V.Fonseca (5); L.Font (20); C.Fruck (13); R.J.Garcia L\'opez; (7,8); M.Garczarczyk (7); D.Garrido (20); G.Giavitto (1); N.Godinovi\'c (19),; D.Hadasch (17); D.H\"afner (13); A.Herrero (7,8); D.Hildebrand (12); J.Hose; (13); D.Hrupec (19); B.Huber (12); T.Jogler (13); S.Klepser (1),; T.Kr\"ahenb\"uhl (12); J.Krause (13); A.La Barbera (2); D.Lelas (19),; E.Leonardo (3); E.Lindfors (10); S.Lombardi (6); M.L\'opez (5); E.Lorenz; (12,13); P.Majumdar (29); M.Makariev (21); G.Maneva (21); N.Mankuzhiyil (16),; K.Mannheim (14); L.Maraschi (2); M.Mariotti (6); M.Martinez (1); D.Mazin; (1,13); M.Meucci (3); J.M.Miranda (3); R.Mirzoyan (13); H.Miyamoto (13),; J.Mold\'on (15); A.Moralejo (1); D.Nieto (5); K.Nilsson (10,30); R.Orito; (13); I.Oya (5); R.Paoletti (3); S.Pardo (5); J.M.Paredes (15); S.Partini; (3); M.Pasanen (10); F.Pauss (12); M.A.Perez-Torres (1); M.Persic (16,22),; L.Peruzzo (6); M.Pilia (23); J.Pochon (7); F.Prada (18); P.G.Prada Moroni; (24); E.Prandini (6); I.Puljak (19); I.Reichardt (1); R.Reinthal (10),; W.Rhode (4); M.Rib\'o (15); J.Rico (25,1); S.R\"ugamer (14); M.R\"uger (14),; A.Saggion (6); K.Saito (13); T.Y.Saito (13); M.Salvati (2); K.Satalecka (11),; V.Scalzotto (6); V.Scapin (16); C.Schultz (6); T.Schweizer (13); M.Shayduk; (13); S.N.Shore (24); A.Sillap\"a\"a (10); J.Sitarek (9); D.Sobczynska (9),; F.Spanier (14); S.Spiro (2); A.Stamerra (3); B.Steinke (13); J.Storz (14),; N.Strah (4); T.Suri\'c (19); L.Takalo (10); F.Tavecchio (2); P.Temnikov (21),; T.Terzi\'c (19); D.Tescaro (1); M.Teshima (13); M.Thom (4); O.Tibolla (14),; D.F.Torres (25,17); A.Treves (23); H.Vankov (21); P.Vogler (12); R.M.Wagner; (13); Q.Weitzel (12); V.Zabalza (15) F.Zandanel (18) R.Zanin (1) ((1) IFAE,; Edifici Cn.; Campus UAB; E-08193 Bellaterra; Spain (2) INAF National; Institute for Astrophysics; I-00136 Rome; Italy (3) Universit\`a di Siena,; and INFN Pisa; I-53100 Siena; Italy (4) Technische Universit\"at Dortmund,; D-44221 Dortmund; Germany (5) Universidad Complutense; E-28040 Madrid; Spain; (6) Universit\`a di Padova; INFN; I-35131 Padova; Italy (7) Inst. de; Astrof\'isica de Canarias; E-38200 La Laguna; Tenerife; Spain (8) Depto. de; Astrof\'isica; Universidad de La Laguna; E-38206 La Laguna; Spain (9); University of \L\'od\'z; PL-90236 Lodz; Poland (10) Tuorla Observatory,; University of Turku; FI-21500 Piikki\"o; Finland (11) Deutsches; Elektronen-Synchrotron (DESY); D-15738 Zeuthen; Germany (12) ETH Zurich,; CH-8093 Switzerland (13) Max-Planck-Institut f\"ur Physik; D-80805 M\"unchen,; Germany (14) Universit\"at W\"urzburg; D-97074 W\"urzburg; Germany (15); Universitat de Barcelona (ICC/IEEC); E-08028 Barcelona; Spain (16); Universit\`a di Udine; and INFN Trieste; I-33100 Udine; Italy (17) Institut; de Ci\`encies de l'Espai (IEEC-CSIC); E-08193 Bellaterra; Spain (18) Inst. de; Astrof\'isica de Andaluc\'ia (CSIC); E-18080 Granada; Spain (19) Croatian; MAGIC Consortium; Institute R. Boskovic; University of Rijeka; University; of Split; HR-10000 Zagreb; Croatia (20) Universitat Aut\`onoma de Barcelona,; E-08193 Bellaterra; Spain (21) Inst. for Nucl. Research; Nucl. Energy,; BG-1784 Sofia; Bulgaria (22) INAF/Osservatorio Astronomico; INFN; I-34143; Trieste; Italy (23) Universit\`a dell'Insubria; Como; I-22100 Como; Italy; (24) Universit\`a di Pisa; and INFN Pisa; I-56126 Pisa; Italy (25) ICREA,; E-08010 Barcelona; Spain (26) now at Ecole polytechnique f\'ed\'erale de; Lausanne (EPFL); Lausanne; Switzerland (27) supported by INFN Padova (28) now; at: Centro de Investigaciones Energ\'eticas; Medioambientales y; Tecnol\'ogicas (CIEMAT); Madrid; Spain (29) University of California; Los; Angeles; USA (30) now at: Finnish Centre for Astronomy with ESO (FINCA),; Turku; Finland)

arXiv:1101.2522·astro-ph.CO·May 27, 2015

MAGIC observations and multiwavelength properties of the quasar 3C279 in 2007 and 2009

The MAGIC Collaboration: J.Aleksi\'c (1), L.A.Antonelli (2),, P.Antoranz (3), M.Backes (4), J.A.Barrio (5), D.Bastieri (6), J.Becerra, Gonz\'alez (7,8), W.Bednarek (9), A.Berdyugin (10), K.Berger (7,8),, E.Bernardini (11), A.Biland (12), O.Blanch (1), R.K.Bock (13)

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TL;DR

This study reports MAGIC telescope observations of quasar 3C279 in 2007 and 2009, analyzing its multiwavelength emission and modeling its spectral energy distribution with various theoretical models.

Contribution

It provides new VHE gamma-ray observations of 3C279, including a detection in 2007, and compares different emission models to explain the source's spectral energy distribution.

Findings

01

2007 detection challenges standard one-zone models

02

Multiwavelength data collected during observations

03

Alternative models fit the spectral energy distribution better

Abstract

Context. 3C 279, the first quasar discovered to emit VHE gamma-rays by the MAGIC telescope in 2006, was reobserved by MAGIC in January 2007 during a major optical flare and from December 2008 to April 2009 following an alert from the Fermi space telescope on an exceptionally high gamma -ray state. Aims. The January 2007 observations resulted in a detection on January 16 with significance 5.2 sigma, corresponding to a F(> 150 GeV) (3.8 \pm 0.8) \cdot 10^-11 ph cm^-2 s^-1 while the overall data sample does not show significant signal. The December 2008 - April 2009 observations did not detect the source. We study the multiwavelength behavior of the source at the epochs of MAGIC observations, collecting quasi-simultaneous data at optical and X-ray frequencies and for 2009 also gamma-ray data from Fermi. Methods. We study the light curves and spectral energy distribution of the source.…

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