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arxiv 1103.0477 v2 pith:7RZBR6ZR submitted 2011-03-02 astro-ph.HE hep-ex

Searches for Dark Matter annihilation signatures in the Segue 1 satellite galaxy with the MAGIC-I telescope

The MAGIC Collaboration (and others): J. Aleksi\'c (1) , E. A. Alvarez (2) , L. A. Antonelli (3) , P. Antoranz (4) , M. Asensio (2) , M. Backes (5) , J. A. Barrio (2) , D. Bastieri (6)
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J. Becerra Gonz\'alez (7 8) W. Bednarek (9) A. Berdyugin (10) K. Berger (7 E. Bernardini (11) A. Biland (12) O. Blanch (1) R. K. Bock (13) A. Boller (12) G. Bonnoli (3) D. Borla Tridon (13) I. Braun (12) T. Bretz (14 26) A. Ca\~nellas (15) E. Carmona (13) A. Carosi (3) P. Colin (13) E. Colombo (7) J. L. Contreras (2) J. Cortina (1) L. Cossio (16) S. Covino (3) 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 M. Doert (5) A. Dom\'inguez (18) D. Dominis Prester (19) D. Dorner (12) M. Doro (20) D. Elsaesser (14) D. Ferenc (19) M. V. Fonseca (2) L. Font (20) C. Fruck (13) R. J. Garc\'ia L\'opez (7 M. Garczarczyk (7) D. Garrido (20) G. Giavitto (1) N. Godinovi\'c (19) D. Hadasch (17) D. H\"afner (13) A. Herrero (7 D. Hildebrand (12) D. H\"ohne-M\"onch (14) 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 (3) D. Lelas (19) E. Leonardo (4) E. Lindfors (10) S. Lombardi (6) M. L\'opez (2) E. Lorenz (12 13) M. Makariev (21) G. Maneva (21) N. Mankuzhiyil (16) K. Mannheim (14) L. Maraschi (3) M. Mariotti (6) M. Mart\'inez (1) D. Mazin (1 M. Meucci (4) J. M. Miranda (4) R. Mirzoyan (13) H. Miyamoto (13) J. Mold\'on (15) A. Moralejo (1) P. Munar-Adrover (15) D. Nieto (2) K. Nilsson (10 29) R. Orito (13) I. Oya (2) S. Paiano (6) D. Paneque (13) R. Paoletti (4) S. Pardo (2) J. M. Paredes (15) S. Partini (4) 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 (5) M. Rib\'o (15) J. Rico (25 1) S. R\"ugamer (14) A. Saggion (6) K. Saito (13) T. Y. Saito (13) M. Salvati (3) K. Satalecka (11) V. Scalzotto (6) V. Scapin (2) C. Schultz (6) T. Schweizer (13) M. Shayduk (13) S. N. Shore (24) A. Sillanp\"a\"a (10) J. Sitarek (9) D. Sobczynska (9) F. Spanier (14) S. Spiro (3) A. Stamerra (4) B. Steinke (13) J. Storz (14) N. Strah (5) T. Suri\'c (19) L. Takalo (10) H. Takami (13) F. Tavecchio (3) P. Temnikov (21) T. Terzi\'c (19) D. Tescaro (24) M. Teshima (13) M. Thom (5) 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) M. Fornasa (18 30) R. Essig (31) N. Sehgal (32) L. E. Strigari (32) ((1) IFAE Edifici Cn. Campus UAB E-08193 Bellaterra Spain (2) Universidad Complutense E-28040 Madrid (3) INAF National Institute for Astrophysics I-00136 Rome Italy (4) Universit\`a di Siena INFN Pisa I-53100 Siena (5) Technische Universit\"at Dortmund D-44221 Dortmund Germany (6) Universit\`a di Padova INFN I-35131 Padova (7) Inst. de Astrof\'isica de Canarias E-38200 La Laguna Tenerife (8) Depto. de Astrof\'isica Universidad de La Laguna E-38206 La Laguna (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 (12) ETH Zurich CH-8093 Switzerland (13) Max-Planck-Institut f\"ur Physik D-80805 M\"unchen (14) Universit\"at W\"urzburg D-97074 W\"urzburg (15) Universitat de Barcelona (ICC/IEEC) E-08028 Barcelona (16) Universit\`a di Udine INFN Trieste I-33100 Udine (17) Institut de Ci\`encies de l'Espai (IEEC-CSIC) (18) Inst. de Astrof\'isica de Andaluc\'ia (CSIC) E-18080 Granada (19) Croatian MAGIC Consortium Institute R. Boskovic University of Rijeka University of Split HR-10000 Zagreb Croatia (20) Universitat Aut\`onoma de Barcelona (21) Inst. for Nucl. Research Nucl. Energy BG-1784 Sofia Bulgaria (22) INAF/Osservatorio Astronomico I-34143 Trieste (23) Universit\`a dell'Insubria Como I-22100 Como (24) Universit\`a di Pisa I-56126 Pisa (25) ICREA E-08010 Barcelona (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 (29) now at: Finnish Centre for Astronomy with ESO (FINCA) (30) MultiDark fellow (31) Stanford Linear Accelerator Center Stanford California USA (32) Kavli Institute for Particle Astrophysics Cosmology Stanford University USA)
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classification astro-ph.HE hep-ex
keywords upperdarklimitsmatterseguegamma-raymodelabove
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We report the results of the observation of the nearby satellite galaxy Segue 1 performed by the MAGIC-I ground-based gamma-ray telescope between November 2008 and March 2009 for a total of 43.2 hours. No significant gamma-ray emission was found above the background. Differential upper limits on the gamma-ray flux are derived assuming various power-law slopes for the possible emission spectrum. Integral upper limits are also calculated for several power-law spectra and for different energy thresholds. The values are of the order of 10^{-11} ph cm^{-2}$ s^{-1} above 100 GeV and 10^{-12} ph cm^{-2} s^{-1} above 200 GeV. Segue 1 is currently considered one of the most interesting targets for indirect dark matter searches. In these terms, the upper limits have been also interpreted in the context of annihilating dark matter particles. For such purpose, we performed a grid scan over a reasonable portion of the parameter space for the minimal SuperGravity model and computed the flux upper limit for each point separately, taking fully into account the peculiar spectral features of each model. We found that in order to match the experimental upper limits with the model predictions, a minimum flux boost of 10^{3} is required, and that the upper limits are quite dependent on the shape of the gamma-ray energy spectrum predicted by each specific model. Finally we compared the upper limits with the predictions of some dark matter models able to explain the PAMELA rise in the positron ratio, finding that Segue 1 data are in tension with the dark matter explanation of the PAMELA spectrum in the case of a dark matter candidate annihilating into tau+tau-. A complete exclusion however is not possible due to the uncertainties in the Segue 1 astrophysical factor.

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