DETECTION OF THE γ-RAY BINARY LS I +61°303 IN A LOW-FLUX STATE AT VERY HIGH ENERGY γ-RAYS WITH THE MAGIC TELESCOPES IN 2009

J Aleksić,E Leonardo,J Krause,K Berger,M Doert,B De Lotto,E Lorenz,A Sillanpää,E Colombo,E Carmona,S Klepser,J Moldón,D Borla Tridon,A La Barbera,M Uellenbeck,D Höhne-Mönch,O Tibolla,L Peruzzo,J Rico,S Rügamer,M Shayduk,A Herrero,S Partini,A Boller,T Krähenbühl,M V Fonseca,E Prandini,L Cossio,H Vankov,G Maneva,P Antoranz,M Pilia,A Cañellas,R J García López,M Salvati,J Pochon,R Reinthal,V Scapin,B Steinke,M Pasanen,V Scalzotto,C Delgado Mendez,R Mirzoyan,A De Angelis,A Saggion,P Munar-Adrover,G De Caneva,D Hildebrand,E De Cea Del Pozo,J Becerra González,J M Paredes,D Dominis Prester,D Tescaro,L Maraschi,T Jogler,P G Prada Moroni,N Strah,S N Shore,J Hose,Q Weitzel,H Kellermann,S Lombardi,R M Wagner,D Mazin,F Spanier,Michael Backes ,R Zanin,Dario Hrupec ,M Ribó,N Mankuzhiyil,J Sitarek,F Pauß ,M López,J Cortina,D Bastieri,D Lelas,D Dorner,C Schultz,A Carosi,J M Miranda,Sharon Pardo ,F Dazzi,M Peršić ,G Bonnoli,K Nilsson,H Miyamoto,A Treves,Bernhard A Huber ,C Fruck,J Storz,Alicia López ,E Bernardini,M Meucci,S Spiro,T Schweizer,R Böck ,S Covino,D Hadasch,K Satalecka,I Oya,L A Antonelli,J A Barrio,M Teshima,F Tavecchio,D Nieto,M Mariotti,M Asensio,M Martı́nez ,M Makariev,D Häfner,M Doro,K Mannheim,D Ferenc,Francisco Prada ,G Giavitto,Takayuki Saito ,A Stamerra,T Bretz,W Bednarek,N Godinović,P Vogler,F Zandanel,P Temnikov,E Lindfors,T Surić,P Colin,A Moralejo,A Berdyugin,V Bosch-Ramón ,R Paoletti,J L Contreras,A Domínguez,L O Takalo ,A Biland,D Elsäesser ,T Terzić,Daniel Garrido ,L Font,D Sobczyńska ,M A Pérez-Torres ,W Rhode,I Puljak,M Garczarczyk,D Paneque,Ezequiel Álvarez ,A Diago Ortega,D F Torres,R Orito,V Zabalza,O Blanch,Koji Saito ,I Braun,I Reichardt,H Takami

doi:10.1088/0004-637x/746/1/80

Abstract

We present very high energy (E > 100 GeV) γ-ray observations of the γ-ray binary system LS I +61°303 obtained with the MAGIC stereo system between 2009 October and 2010 January. We detect a 6.3σ γ-ray signal above 400 GeV in the combined data set. The integral flux above an energy of 300 GeV is F(E > 300 GeV) = (1.4 ± 0.3stat ± 0.4syst) × 10−12 cm−2 s−1, which corresponds to about 1.3% of the Crab Nebula flux in the same energy range. The orbit-averaged flux of LS I +61°303 in the orbital phase interval 0.6–0.7, where a maximum of the TeV flux is expected, is lower by almost an order of magnitude compared to our previous measurements between 2005 September and 2008 January. This provides evidence for a new low-flux state in LS I +61°303. We find that the change to the low-flux state cannot be solely explained by an increase of photon–photon absorption around the compact star.

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