The Simultaneous Low State Spectral Energy Distribution of 1ES 2344+514   from Radio to Very High Energies

MAGIC Collaboration: J. Aleksi\'c (1); L. A. Antonelli (2); P.; Antoranz (3); M. Asensio (4); M. Backes (5); U. Barres de Almeida (6); J. A.; Barrio (4); W. Bednarek (7); K. Berger (8,9); E. Bernardini (10); A. Biland; (11); O. Blanch (1); R. K. Bock (6); A. Boller (11); S. Bonnefoy (4); G.; Bonnoli (2); D. Borla Tridon (6); T. Bretz (12,28); E. Carmona (13); A.; Carosi (2); D. Carreto Fidalgo (12,4); P. Colin (6); E. Colombo (8); J. L.; Contreras (4); J. Cortina (1); L. Cossio (14); S. Covino (2); P. Da Vela (3),; F. Dazzi (14,29); A. De Angelis (14); G. De Caneva (10); B. De Lotto (14); C.; Delgado Mendez (13); M. Doert (5); A. Dom\'inguez (15); D. Dominis Prester; (16); D. Dorner (12); M. Doro (17); D. Eisenacher (12); D. Elsaesser (12); D.; Ferenc (16); M. V. Fonseca (4); L. Font (17); C. Fruck (6); R. J. Garc\'ia; L\'opez (8,9); M. Garczarczyk (8); D. Garrido Terrats (17); M. Gaug (17); G.; Giavitto (1); N. Godinovi\'c (16); A. Gonz\'alez Mu\~noz (1); S. R. Gozzini; (10); A. Hadamek (5); D. Hadasch (18); A. Herrero (8,9); J. Hose (6); D.; Hrupec (16); F. Jankowski (10); V. Kadenius (19); S. Klepser (1,30); M. L.; Knoetig (6); T. Kr\"ahenb\"uhl (11); J. Krause (6); J. Kushida (20); A. La; Barbera (2); D. Lelas (16); E. Leonardo (3); N. Lewandowska (12); E. Lindfors; (19,31); S. Lombardi (2); M. L\'opez (4); R. L\'opez-Coto (1); A.; L\'opez-Oramas (1); E. Lorenz (6,11); I. Lozano (4); M. Makariev (21); K.; Mallot (10); G. Maneva (21); N. Mankuzhiyil (14); K. Mannheim (12); L.; Maraschi (2); B. Marcote (22); M. Mariotti (23); M. Mart\'inez (1); J. Masbou; (23); D. Mazin (6); M. Meucci (3); J. M. Miranda (3); R. Mirzoyan (6); J.; Mold\'on (22); A. Moralejo (1); P. Munar-Adrover (22); D. Nakajima (6); A.; Niedzwiecki (7); D. Nieto (4); K. Nilsson (19,31); N. Nowak (6); R. Orito; (20); S. Paiano (23); M. Palatiello (14); D. Paneque (6); R. Paoletti (3); J.; M. Paredes (22); S. Partini (3); M. Persic (14,24); M. Pilia (25); F. Prada; (15,32); P. G. Prada Moroni (26); E. Prandini (23); I. Puljak (16); I.; Reichardt (1); R. Reinthal (19); W. Rhode (5); M. Rib\'o (22); J. Rico; (27,1); S. R\"ugamer (12); A. Saggion (23); K. Saito (20); T. Y. Saito (6),; M. Salvati (2); K. Satalecka (4); V. Scalzotto (23); V. Scapin (4); C.; Schultz (23); T. Schweizer (6); S. N. Shore (26); A. Sillanp\"a\"a (19); J.; Sitarek (1); I. Snidaric (16); D. Sobczynska (7); F. Spanier (12); S. Spiro; (2); V. Stamatescu (1); A. Stamerra (3); B. Steinke (6); J. Storz (12); S.; Sun (6); T. Suri\'c (16); L. Takalo (19); H. Takami (20); F. Tavecchio (2),; P. Temnikov (21); T. Terzi\'c (16); D. Tescaro (8); M. Teshima (6); O.; Tibolla (12); D. F. Torres (27,18); T. Toyama (6); A. Treves (25); M.; Uellenbeck (5); P. Vogler (11); R. M. Wagner (6); Q. Weitzel (11); F.; Zandanel (15); R. Zanin (22); The MAGIC Collaboration; F. Longo (33); F.; Lucarelli (34); C. Pittori (34); S. Vercellone (35; for the AGILE team); D.; Bastieri (23); C. Sbarra (36; for the Fermi-LAT Collaboration); E. Angelakis; (37); L. Fuhrmann (37); I. Nestoras (37); T. P. Krichbaum (37); A. Sievers; (38); J. A. Zensus (37; for the F-GAMMA program); K. A. Antonyuk (39); W.; Baumgartner (40); A. Berduygin (19); M. Carini (41); K. Cook (41); N. Gehrels; (40); M. Kadler (12); Yu. A. Kovalev (42); Y. Y.Kovalev (42,37); F. Krauss; (43); H. A. Krimm (44,40); A. L\"ahteenm\"aki (45); M. L. Lister (46); W.; Max-Moerbeck (47); M. Pasanen (19); A. B. Pushkarev (48,39); A. C. S.; Readhead (47); J. L. Richards (46); J.Sainio (19); D. N. Shakhovskoy (39); K.; V. Sokolovsky (42,49,37); M. Tornikoski (45); J. Tueller (40); M. Weidinger; (50); J. Wilms (43) ((1) IFAE; Edifici Cn.; Campus UAB; Spain; (2) INAF; National Institute for Astrophysics; Rome; Italy; (3) Universit\`a di Siena,; and INFN Pisa; Italy; (4) Universidad Complutense; Spain; (5) Technische; Universit\"at Dortmund; Germany; (6) Max-Planck-Institut f\"ur Physik,; M\"unchen; Germany; (7) University of \L\'od\'z; Poland; (8) Inst. de; Astrof\'isica de Canarias; Tenerife; Spain; (9) Depto. de Astrof\'isica,; Universidad de La Laguna; Spain; (10) Deutsches Elektronen-Synchrotron; (DESY); Germany; (11) ETH Zurich; Switzerland; (12) Universit\"at W\"urzburg,; Germany; (13) Centro de Investigaciones Energ\'eticas; Medioambientales y; Tecnol\'ogicas; Spain; (14) Universit\`a di Udine; and INFN Trieste; Italy,; (15) Inst. de Astrof\'isica de Andaluc\'ia (CSIC); Spain; (16) Croatian MAGIC; Consortium; Rudjer Boskovic Institute; University of Rijeka; University of; Split; Croatia; (17) Universitat Aut\`onoma de Barcelona; Spain; (18); Institut de Ci\`encies de l'Espai (IEEC-CSIC); Spain; (19) Tuorla; Observatory; University of Turku; Finland; (20) Japanese MAGIC Consortium,; Division of Physics; Astronomy; Kyoto University; Japan; (21) Inst. for; Nucl. Research; Nucl. Energy; Sofia; Bulgaria; (22) Universitat de; Barcelona (ICC/IEEC); Spain; (23) Universit\`a di Padova; INFN Padova,; Italy; (24) INAF/Osservatorio Astronomico; INFN; Trieste; Italy; (25); Universit\`a dell'Insubria; Como; Italy; (26) Universit\`a di Pisa; and INFN; Pisa; Italy; (27) ICREA; Barcelona; Spain; (28) now at: Ecole polytechnique; f\'ed\'erale de Lausanne (EPFL); Switzerland; (29) supported by INFN Padova,; (30) now at: DESY; Zeuthen; Germany; (31) now at: Finnish Centre for; Astronomy with ESO (FINCA); University of Turku; Finland; (32) also at; Instituto de Fisica Teorica; UAM/CSIC; Spain; (33) Universit\`a di Trieste,; and INFN Trieste; Italy; (34) Agenzia Spaziale Italiana (ASI) Science Data; Center; INAF-Oar; Italy; (35) INAF; Istituto di Astrofisica Spaziale e; Fisica Cosmica; Italy; (36) INFN Padova; Italy; (37) Max-Planck-Institut; f\"ur Radioastronomie; Germany; (38) Instituto de Radio Astronoma; Milim\'etrica; Spain; (39) Crimean Astrophysical Observatory; Ukraine; (40); Astrophysics Science Division; NASA Goddard Space Flight Center; USA; (41); Department of Physics; Astronomy; Western Kentucky University; USA; (42); Astro Space Center of Lebedev Physical Institute; 117997 Moscow; Russia; (43); Dr. Remeis-Sternwarte; ECAP; Universit\"at Erlangen-N\"urnberg; Germany,; (44) Universities Space Research Association; Columbia; MD 21044; USA; (45); Aalto University Mets\"ahovi Radio Observatory; Finland; (46) Department of; Physics; Purdue University; USA; (47) Cahill Center for Astronomy and; Astrophysics; California Institute of Technology; USA; (48) Pulkovo; Observatory; St. Petersburg; Russia; (49) Sternberg Astronomical Institute,; Moscow State University; 119992 Moscow; Russia; (50) Theoretische Physik IV,; Ruhr-Universit\"at Bochum; Germany)

arXiv:1211.2608·astro-ph.HE·August 15, 2019

The Simultaneous Low State Spectral Energy Distribution of 1ES 2344+514 from Radio to Very High Energies

MAGIC Collaboration: J. Aleksi\'c (1), L. A. Antonelli (2), P., Antoranz (3), M. Asensio (4), M. Backes (5), U. Barres de Almeida (6), J. A., Barrio (4), W. Bednarek (7), K. Berger (8,9), E. Bernardini (10), A. Biland, (11), O. Blanch (1), R. K. Bock (6), A. Boller (11)

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TL;DR

This study presents the first simultaneous broad-band spectral energy distribution of 1ES 2344+514 during a low activity state, combining multi-wavelength data from radio to VHE gamma rays and modeling it with synchrotron self-Compton models.

Contribution

It provides a comprehensive multi-wavelength dataset and modeling of 1ES 2344+514 during a low activity state, highlighting the stability of the jet and challenges in SED modeling.

Findings

01

Detected variability in radio and X-ray bands, including a small flare in X-rays.

02

Found a static jet with stable components over eleven years.

03

SEDs are well described by both one-zone and two-zone SSC models.

Abstract

[Abridged] Context. To construct and interpret the spectral energy distribution (SED) of BL Lacertae objects, simultaneous broad-band observations are mandatory. Aims. We present the results of a dedicated multi-wavelength study of the high-frequency peaked BL Lacertae (HBL) object and known TeV emitter 1ES 2344+514 by means of a pre-organised campaign. Methods. The observations were conducted during simultaneous visibility windows of MAGIC and AGILE in late 2008. The measurements were complemented by Mets\"ahovi, RATAN-600, KVA+Tuorla, Swift and VLBA pointings. Additional coverage was provided by the ongoing long-term F-GAMMA and MOJAVE programs, the OVRO 40-m and CrAO telescopes as well as the Fermi satellite. The obtained SEDs are modelled using a one-zone as well as a self-consistent two-zone synchrotron self-Compton model. Results. 1ES 2344+514 was found at very low flux states in…

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