Discovery of TeV gamma-ray emission from the pulsar wind nebula 3C 58 by   MAGIC

MAGIC Collaboration: J. Aleksi\'c (1); S. Ansoldi (2); L. A. Antonelli; (3); P. Antoranz (4); A. Babic (5); P. Bangale (6); J. A. Barrio (7); J.; Becerra Gonz\'alez (8,25); W. Bednarek (9); E. Bernardini (10); B. Biasuzzi; (2); A. Biland (11); O. Blanch (1); S. Bonnefoy (7); G. Bonnoli (3); F.; Borracci (6); T. Bretz (12,26); E. Carmona (13); A. Carosi (3); P. Colin (6),; E. Colombo (8); J. L. Contreras (7); J. Cortina (1); S. Covino (3); P. Da; Vela (4); F. Dazzi (6); A. De Angelis (2); G. De Caneva (10); B. De Lotto; (2); E. de O\~na Wilhelmi (14); C. Delgado Mendez (13); D. Dominis Prester; (5); D. Dorner (12); M. Doro (15); S. Einecke (16); D. Eisenacher (12); D.; Elsaesser (12); M. V. Fonseca (7); L. Font (17); K. Frantzen (16); C. Fruck; (6); D. Galindo (18); R. J. Garc\'ia L\'opez (8); M. Garczarczyk (10); D.; Garrido Terrats (17); M. Gaug (17); N. Godinovi\'c (5); A. Gonz\'alez Mu\~noz; (1); S. R. Gozzini (10); D. Hadasch (14,27); Y. Hanabata (19); M. Hayashida; (19); J. Herrera (8); D. Hildebrand (11); J. Hose (6); D. Hrupec (5); W. Idec; (9); V. Kadenius (20); H. Kellermann (6); K. Kodani (19); Y. Konno (19); J.; Krause (6); H. Kubo (19); J. Kushida (19); A. La Barbera (3); D. Lelas (5),; N. Lewandowska (12); E. Lindfors (20,28); S. Lombardi (3); M. L\'opez (7); R.; L\'opez-Coto (1); A. L\'opez-Oramas (1); E. Lorenz (6); I. Lozano (7); M.; Makariev (21); K. Mallot (10); G. Maneva (21); N. Mankuzhiyil (2,29); K.; Mannheim (12); L. Maraschi (3); B. Marcote (18); M. Mariotti (15); M.; Mart\'inez (1); D. Mazin (6); U. Menzel (6); J. M. Miranda (4); R. Mirzoyan; (6); A. Moralejo (1); P. Munar-Adrover (18); D. Nakajima (19); A. Niedzwiecki; (9); K. Nilsson (20,28); K. Nishijima (19); K. Noda (6); R. Orito (19); A.; Overkemping (16); S. Paiano (15); M. Palatiello (2); D. Paneque (6); R.; Paoletti (4); J. M. Paredes (18); X. Paredes-Fortuny (18); M. Persic (2,30),; P. G. Prada Moroni (22); E. Prandini (11); I. Puljak (5); R. Reinthal (20),; W. Rhode (16); M. Rib\'o (18); J. Rico (1); J. Rodriguez Garcia (6); S.; R\"ugamer (12); T. Saito (19); K. Saito (19); K. Satalecka (7); V. Scalzotto; (15); V. Scapin (7); C. Schultz (15); T. Schweizer (6); S. N. Shore (22); A.; Sillanp\"a\"a (20); J. Sitarek (1); I. Snidaric (5); D. Sobczynska (9); F.; Spanier (12); V. Stamatescu (1,31); A. Stamerra (3); T. Steinbring (12); J.; Storz (12); M. Strzys (6); L. Takalo (20); H. Takami (19); F. Tavecchio (3),; P. Temnikov (21); T. Terzi\'c (5); D. Tescaro (8); M. Teshima (6); J. Thaele; (16); O. Tibolla (12); D. F. Torres (23); T. Toyama (6); A. Treves (24); M.; Uellenbeck (16); P. Vogler (11); R. Zanin (18); and J. Martin (14); M.A.; P\'erez-Torres (32,33,34) ((1) IFAE; Campus UAB; E-08193 Bellaterra; Spain,; (2) Universit\`a di Udine; and INFN Trieste; I-33100 Udine; Italy; (3) INAF; National Institute for Astrophysics; I-00136 Rome; Italy; (4) Universit\`a di; Siena; and INFN Pisa; I-53100 Siena; Italy; (5) Croatian MAGIC Consortium,; Rudjer Boskovic Institute; University of Rijeka; University of Split,; HR-10000 Zagreb; Croatia; (6) Max-Planck-Institut f\"ur Physik; D-80805; M\"unchen; Germany; (7) Universidad Complutense; E-28040 Madrid; Spain; (8); Inst. de Astrof\'isica de Canarias; E-38200 La Laguna; Tenerife; Spain; (9); University of \L\'od\'z; PL-90236 Lodz; Poland; (10) Deutsches; Elektronen-Synchrotron (DESY); D-15738 Zeuthen; Germany; (11) ETH Zurich,; CH-8093 Zurich; Switzerland; (12) Universit\"at W\"urzburg; D-97074; W\"urzburg; Germany; (13) Centro de Investigaciones Energ\'eticas,; Medioambientales y Tecnol\'ogicas; E-28040 Madrid; Spain; (14) Institute of; Space Sciences; E-08193 Barcelona; Spain; (15) Universit\`a di Padova and; INFN; I-35131 Padova; Italy; (16) Technische Universit\"at Dortmund; D-44221; Dortmund; Germany; (17) Unitat de F\'isica de les Radiacions; Departament de; F\'isica; and CERES-IEEC; Universitat Aut\`onoma de Barcelona; E-08193; Bellaterra; Spain; (18) Universitat de Barcelona; ICC; IEEC-UB; E-08028; Barcelona; Spain; (19) Japanese MAGIC Consortium; Division of Physics and; Astronomy; Kyoto University; Japan; (20) Finnish MAGIC Consortium; Tuorla; Observatory; University of Turku; Department of Physics; University of; Oulu; Finland; (21) Inst. for Nucl. Research; Nucl. Energy; BG-1784 Sofia,; Bulgaria; (22) Universit\`a di Pisa; and INFN Pisa; I-56126 Pisa; Italy; (23); ICREA; Institute of Space Sciences; E-08193 Barcelona; Spain; (24); Universit\`a dell'Insubria; INFN Milano Bicocca; Como; I-22100 Como,; Italy; (25) now at: NASA Goddard Space Flight Center; Greenbelt; MD 20771,; USA; Department of Physics; Department of Astronomy; University of; Maryland; College Park; MD 20742; USA; (26) now at Ecole polytechnique; f\'ed\'erale de Lausanne (EPFL); Lausanne; Switzerland; (27) Now at Institut; f\"ur Astro- und Teilchenphysik; Leopold-Franzens- Universit\"at Innsbruck,; A-6020 Innsbruck; Austria; (28) now at Finnish Centre for Astronomy with ESO; (FINCA); Turku; Finland; (29) now at Astrophysics Science Division; Bhabha; Atomic Research Centre; Mumbai 400085; India; (30) also at INAF-Trieste; (31); now at School of Chemistry \& Physics; University of Adelaide; Adelaide 5005,; Australia; (32) Inst. de Astrof\'isica de Andaluc\'ia (CSIC); E-18080; Granada; Spain; (33) also at Depto. de F\'isica Te\'orica; Facultad de; Ciencias de la Universidad de Zaragoza. (34) now at Centro de F\'isica del; Cosmos de Arag\'on; Teruel)

arXiv:1405.6074·astro-ph.HE·September 5, 2014

Discovery of TeV gamma-ray emission from the pulsar wind nebula 3C 58 by MAGIC

MAGIC Collaboration: J. Aleksi\'c (1), S. Ansoldi (2), L. A. Antonelli, (3), P. Antoranz (4), A. Babic (5), P. Bangale (6), J. A. Barrio (7), J., Becerra Gonz\'alez (8,25), W. Bednarek (9), E. Bernardini (10), B. Biasuzzi, (2), A. Biland (11), O. Blanch (1), S. Bonnefoy (7)

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TL;DR

This paper reports the first detection of TeV gamma-ray emission from the pulsar wind nebula 3C 58 by MAGIC, revealing it as the least luminous VHE PWN detected and providing insights into its distance, magnetic field, and emission mechanisms.

Contribution

The study presents the first significant TeV gamma-ray detection of PWN 3C 58, expanding knowledge of VHE emissions from low-luminosity PWNe and constraining models of its emission processes.

Findings

01

Detected VHE gamma-ray emission with 5.7 sigma significance

02

Measured an integral flux of 0.65% Crab above 1 TeV

03

Spectral index of 2.4 for the energy spectrum

Abstract

The pulsar wind nebula (PWN) 3C 58 is one of the historical very-high-energy (VHE; E>100 GeV) gamma-ray source candidates. It is energized by one of the highest spin-down power pulsars known (5% of Crab pulsar) and it has been compared to the Crab Nebula due to their morphological similarities. This object was previously observed by imaging atmospheric Cherenkov telescopes (Whipple, VERITAS and MAGIC), although not detected, with an upper limit of 2.4% Crab Unit (C.U.) at VHE. It was detected by Fermi-LAT with a spectrum extending beyond 100 GeV. We analyzed 81 hours of 3C 58 data taken with the MAGIC telescopes and we detected VHE gamma-ray emission with a significance of 5.7 sigma and an integral flux of 0.65% C.U. above 1 TeV. The differential energy spectrum between 400 GeV and 10 TeV is well described by a power-law function d\phi/dE=f_0(E/1TeV)^{-Gamma} with…

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