Constraining Cosmic Rays and Magnetic Fields in the Perseus Galaxy   Cluster with TeV observations by the MAGIC telescopes

MAGIC Collaboration: J. Aleksi\'c (1); E. A. Alvarez (2); L. A.; Antonelli (3); P. Antoranz (4); M. Asensio (2); M. Backes (5); U. Barres de; Almeida (6); J. A. Barrio (2); D. Bastieri (7); J. Becerra Gonz\'alez (8,9),; W. Bednarek (10); A. Berdyugin (11); K. Berger (8,9); E. Bernardini (12); A.; Biland (13); O. Blanch (1); R. K. Bock (6); A. Boller (13); G. Bonnoli (3),; D. Borla Tridon (6); I. Braun (13); T. Bretz (14,26); A. Ca\~nellas (15); E.; Carmona (6,28); A. Carosi (3); P. Colin (6); E. Colombo (8); J. L. Contreras; (2); J. Cortina (1); L. Cossio (16); S. Covino (3); F. Dazzi (16,27); A. De; Angelis (16); G. De Caneva (12); E. De Cea del Pozo (17); B. De Lotto (16),; C. Delgado Mendez (8,28); A. Diago Ortega (8,9); M. Doert (5); A. Dom\'inguez; (18); D. Dominis Prester (19); D. Dorner (13); M. Doro (20); D. Eisenacher; (14); D. Elsaesser (14); D. Ferenc (19); M. V. Fonseca (2); L. Font (20); C.; Fruck (6); R. J. Garc\'ia L\'opez (8,9); M. Garczarczyk (8); D. Garrido (20),; G. Giavitto (1); N. Godinovi\'c (19); S. R. Gozzini (12); D. Hadasch (17); D.; H\"afner (6); A. Herrero (8,9); D. Hildebrand (13); D. H\"ohne-M\"onch (14),; J. Hose (6); D. Hrupec (19); T. Jogler (6); H. Kellermann (6); S. Klepser; (1); T. Kr\"ahenb\"uhl (13); J. Krause (6); J. Kushida (6); A. La Barbera; (3); D. Lelas (19); E. Leonardo (4); N. Lewandowska (14); E. Lindfors (11),; S. Lombardi (7); M. L\'opez (2); R. L\'opez-Coto (1); A. L\'opez-Oramas (1),; E. Lorenz (13,6); M. Makariev (21); G. Maneva (21); N. Mankuzhiyil (16); K.; Mannheim (14); L. Maraschi (3); M. Mariotti (7); M. Mart\'inez (1); D. Mazin; (1,6); M. Meucci (4); J. M. Miranda (4); R. Mirzoyan (6); J. Mold\'on (15),; A. Moralejo (1); P. Munar-Adrover (15); A. Niedzwiecki (10); D. Nieto (2); K.; Nilsson (11,29); N. Nowak (6); R. Orito (6); S. Paiano (7); D. Paneque (6),; R. Paoletti (4); S. Pardo (2); J. M. Paredes (15); S. Partini (4); M. A.; Perez-Torres (1); M. Persic (16,22); L. Peruzzo (7); M. Pilia (23); J. Pochon; (8); F. Prada (18); P. G. Prada Moroni (24); E. Prandini (7); I. Puerto; Gimenez (8); I. Puljak (19); I. Reichardt (1); R. Reinthal (11); W. Rhode; (5); M. Rib\'o (15); J. Rico (25,1); S. R\"ugamer (14); A. Saggion (7); K.; Saito (6); T. Y. Saito (6); M. Salvati (3); K. Satalecka (2); V. Scalzotto; (7); V. Scapin (2); C. Schultz (7); T. Schweizer (6); M. Shayduk (26); S. N.; Shore (24); A. Sillanp\"a\"a (11); J. Sitarek (1,10); I. Snidaric (19); D.; Sobczynska (10); F. Spanier (14); S. Spiro (3); V. Stamatescu (1); A.; Stamerra (4); B. Steinke (6); J. Storz (14); N. Strah (5); S. Sun (6); T.; Suri\'c (19); L. Takalo (11); H. Takami (6); F. Tavecchio (3); P. Temnikov; (21); T. Terzi\'c (19); D. Tescaro (24); M. Teshima (6); O. Tibolla (14); D.; F. Torres (25,17); A. Treves (23); M. Uellenbeck (5); H. Vankov (21); P.; Vogler (13); R. M. Wagner (6); Q. Weitzel (13); V. Zabalza (15); F. Zandanel; (18); R. Zanin (15) (The MAGIC Collaboration); and C. Pfrommer (30); A.; Pinzke (31) ((1) IFAE; Edifici Cn.; Campus UAB; Bellaterra; Spain; (2); Universidad Complutense; Madrid; Spain; (3) INAF National Institute for; Astrophysics; Rome; Italy; (4) Universit\`a di Siena; and INFN Pisa; Siena,; Italy; (5) Technische Universit\"at Dortmund; Dortmund; Germany; (6); Max-Planck-Institut f\"ur Physik; M\"unchen; Germany; (7) Universit\`a di; Padova; INFN; Padova; Italy; (8) Inst. de Astrof\'isica de Canarias; La; Laguna; Tenerife; Spain; (9) Depto. de Astrof\'isica; Universidad de La; Laguna; La Laguna; Spain; (10) University of \L\'od\'z; Lodz; Poland; (11); Tuorla Observatory; University of Turku; Piikki\"o; Finland; (12) Deutsches; Elektronen-Synchrotron (DESY); Zeuthen; Germany; (13) ETH Zurich; Zurich,; Switzerland; (14) Universit\"at W\"urzburg; W\"urzburg; Germany; (15); Universitat de Barcelona (ICC/IEEC); Barcelona; Spain; (16) Universit\`a di; Udine; and INFN Trieste; Udine; Italy; (17) Institut de Ci\`encies de l'Espai; (IEEC-CSIC); Bellaterra; Spain; (18) Inst. de Astrof\'isica de Andaluc\'ia; (CSIC); Granada; Spain; (19) Croatian MAGIC Consortium; Rudjer Boskovic; Institute; University of Rijeka; University of Split; Zagreb; Croatia,; (20) Universitat Aut\`onoma de Barcelona; Bellaterra; Spain; (21) Inst. for; Nucl. Research; Nucl. Energy; Sofia; Bulgaria; (22) INAF/Osservatorio; Astronomico; INFN; Trieste; Italy; (23) Universit\`a dell'Insubria; Como,; Como; Italy; (24) Universit\`a di Pisa; and INFN Pisa; Pisa; Italy; (25); ICREA; 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) now at: Finnish Centre for; Astronomy with ESO (FINCA); University of Turku; Finland; (30) HITS,; Heidelberg; Germany; (31) UC Santa Barbara; Santa Barbara; CA; USA)

arXiv:1111.5544·astro-ph.HE·May 11, 2012

Constraining Cosmic Rays and Magnetic Fields in the Perseus Galaxy Cluster with TeV observations by the MAGIC telescopes

MAGIC Collaboration: J. Aleksi\'c (1), E. A. Alvarez (2), L. A., Antonelli (3), P. Antoranz (4), M. Asensio (2), M. Backes (5), U. Barres de, Almeida (6), J. A. Barrio (2), D. Bastieri (7), J. Becerra Gonz\'alez (8,9),, W. Bednarek (10), A. Berdyugin (11), K. Berger (8,9)

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TL;DR

This study used the MAGIC telescopes to observe the Perseus galaxy cluster, constraining cosmic ray pressure, acceleration efficiency, and magnetic fields through gamma-ray observations and non-detections.

Contribution

First deep TeV gamma-ray observational campaign of Perseus, providing new constraints on cosmic ray physics and magnetic fields in galaxy clusters.

Findings

01

No significant gamma-ray excess detected above 630 GeV.

02

Limits on cosmic ray pressure ratio are <= 1-2%.

03

Maximum CR acceleration efficiency at shocks is < 50%.

Abstract

Galaxy clusters are being assembled today in the most energetic phase of hierarchical structure formation which manifests itself in powerful shocks that contribute to a substantial energy density of cosmic rays (CRs). Hence, clusters are expected to be luminous gamma-ray emitters since they also act as energy reservoirs for additional CR sources, such as active galactic nuclei and supernova-driven galactic winds. To detect the gamma-ray emission from CR interactions with the ambient cluster gas, we conducted the deepest to date observational campaign targeting a galaxy cluster at very high-energy gamma-rays and observed the Perseus cluster with the MAGIC Cherenkov telescopes for a total of ~85 hr of effective observing time. This campaign resulted in the detection of the central radio galaxy NGC 1275 at energies E > 100 GeV with a very steep energy spectrum. Here, we restrict our…

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