Super-orbital variability of LS I +61{\deg}303 at TeV energies

MAGIC Collaboration: M. L. Ahnen (1); S. Ansoldi (2); L. A. Antonelli; (3); P. Antoranz (4); A. Babic (5); B. Banerjee (6); P. Bangale (7); U.; Barres de Almeida (7,25); J. A. Barrio (8); J. Becerra Gonz\'alez (9,26); W.; Bednarek (10); E. Bernardini (11,27); B. Biasuzzi (2); A. Biland (1); O.; Blanch (12); S. Bonnefoy (8); G. Bonnoli (3); F. Borracci (7); T. Bretz; (13,28); S. Buson (14); A. Carosi (3); A. Chatterjee (6); R. Clavero (9); P.; Colin (7); E. Colombo (9); J. L. Contreras (8); J. Cortina (12); S. Covino; (3); P. Da Vela (4); F. Dazzi (7); A. De Angelis (14); B. De Lotto (2); E. de; O\~na Wilhelmi (15); C. Delgado Mendez (16); F. Di Pierro (3); A. Dom\'inguez; (8,29); D. Dominis Prester (5); D. Dorner (13); M. Doro (14); S. Einecke; (17); D. Eisenacher Glawion (13); D. Elsaesser (13); A. Fern\'andez-Barral; (12); D. Fidalgo (8); M. V. Fonseca (8); L. Font (18); K. Frantzen (17); C.; Fruck (7); D. Galindo (19); R. J. Garc\'ia L\'opez (9); M. Garczarczyk (11),; D. Garrido Terrats (18); M. Gaug (18); P. Giammaria (3); N. Godinovi\'c (5),; A. Gonz\'alez Mu\~noz (12); D. Gora (11); D. Guberman (12); D. Hadasch (20),; A. Hahn (7); Y. Hanabata (20); M. Hayashida (20); J. Herrera (9); J. Hose; (7); D. Hrupec (5); G. Hughes (1); W. Idec (10); K. Kodani (20); Y. Konno; (20); H. Kubo (20); J. Kushida (20); A. La Barbera (3); D. Lelas (5); E.; Lindfors (21); S. Lombardi (3); F. Longo (2); M. L\'opez (8); R. L\'opez-Coto; (12); A. L\'opez-Oramas (12,34); P. Majumdar (6); M. Makariev (22); K. Mallot; (11); G. Maneva (22); M. Manganaro (9); K. Mannheim (13); L. Maraschi (3); B.; Marcote (19); M. Mariotti (14); M. Mart\'inez (12); D. Mazin (7,30); U.; Menzel (7); J. M. Miranda (4); R. Mirzoyan (7); A. Moralejo (12); E. Moretti; (7); D. Nakajima (20); V. Neustroev (21); A. Niedzwiecki (10); M. Nievas; Rosillo (8); K. Nilsson (21,31); K. Nishijima (20); K. Noda (7); R. Orito; (20); A. Overkemping (17); S. Paiano (14); J. Palacio (12); M. Palatiello; (2); D. Paneque (7); R. Paoletti (4); J. M. Paredes (19); X. Paredes-Fortuny; (19); G. Pedaletti (11); M. Persic (2,32); J. Poutanen (21); P. G. Prada; Moroni (23); E. Prandini (1,33); I. Puljak (5); W. Rhode (17); M. Rib\'o; (19); J. Rico (12); J. Rodriguez Garcia (7); T. Saito (20); K. Satalecka (8),; C. Schultz (14); T. Schweizer (7); S. N. Shore (23); A. Sillanp\"a\"a (21),; J. Sitarek (10); I. Snidaric (5); D. Sobczynska (10); A. Stamerra (3); T.; Steinbring (13); M. Strzys (7); L. Takalo (21); H. Takami (20); F. Tavecchio; (3); P. Temnikov (22); T. Terzi\'c (5); D. Tescaro (9); M. Teshima (7,30); J.; Thaele (17); D. F. Torres (24); T. Toyama (7); A. Treves (2); V. Verguilov; (22); I. Vovk (7); J. E. Ward (12); M. Will (9); M. H. Wu (15); R. Zanin; (19); (the MAGIC Collaboration); J. Casares (9); A. Herrero (9) ((1) ETH; Zurich; Switzerland; (2) Universit\`a di Udine; and INFN Trieste; Italy; (3); INAF National Institute for Astrophysics; Italy; (4) Universit\`a di Siena,; and INFN Pisa; Italy; (5) Croatian MAGIC Consortium; Rudjer Boskovic; Institute; University of Rijeka; University of Split; University of; Zagreb; Croatia; (6) Saha Institute of Nuclear Physics; India; (7); Max-Planck-Institut f\"ur Physik; Germany; (8) Universidad Complutense,; Spain; (9) Inst. de Astrof\'isica de Canarias; Universidad de La Laguna,; Spain; (10) University of \L\'od\'z; Poland; (11) Deutsches; Elektronen-Synchrotron (DESY); Germany; (12) Institut de Fisica d'Altes; Energies; The Barcelona Institute of Science; Technology (IFAE-BIST),; Spain; (13) Universit\"at W\"urzburg; Germany; (14) Universit\`a di Padova; and INFN; Italy; (15) Institute for Space Sciences (CSIC/IEEC); Spain; (16); Centro de Investigaciones Energ\'eticas; Medioambientales y Tecnol\'ogicas,; Spain; (17) Technische Universit\"at Dortmund; Germany; (18) Unitat de; F\'isica de les Radiacions; Departament de F\'isica; and CERES-IEEC,; Universitat Aut\`onoma de Barcelona; Spain; (19) Universitat de Barcelona,; ICC; IEEC-UB; Spain; (20) Japanese MAGIC Consortium; ICRR; The University of; Tokyo; Department of Physics; Hakubi Center; Kyoto University; Tokai; University; The University of Tokushima; KEK; Japan; (21) Finnish MAGIC; Consortium; Tuorla Observatory; University of Turku; Department of; Physics; University of Oulu; Finland; (22) Inst. for Nucl. Research; Nucl.; Energy; Bulgaria; (23) Universit\`a di Pisa; and INFN Pisa; Italy; (24) ICREA; and Institute for Space Sciences (CSIC/IEEC); Spain; (25) now at Centro; Brasileiro de Pesquisas F\'isicas (CBPF/MCTI); Brazil; (26) now at NASA; Goddard Space Flight Center; Department of Physics; Department of; Astronomy; University of Maryland; USA; (27) Humboldt University of Berlin,; Institut f\"ur Physik Newtonstr Germany; (28) now at Ecole polytechnique; f\'ed\'erale de Lausanne (EPFL); Switzerland; (29) now at Department of; Physics & Astronomy; UC Riverside USA; (30) also at Japanese MAGIC; Consortium; (31) now at Finnish Centre for Astronomy with ESO (FINCA),; Finland; (32) also at INAF-Trieste; (33) also at ISDC - Science Data Center; for Astrophysics; Geneva; (34) now at Laboratoire AIM; Service; d'Astrophysique; France)

arXiv:1603.06973·astro-ph.HE·August 15, 2019

Super-orbital variability of LS I +61{\deg}303 at TeV energies

MAGIC Collaboration: M. L. Ahnen (1), S. Ansoldi (2), L. A. Antonelli, (3), P. Antoranz (4), A. Babic (5), B. Banerjee (6), P. Bangale (7), U., Barres de Almeida (7,25), J. A. Barrio (8), J. Becerra Gonz\'alez (9,26), W., Bednarek (10), E. Bernardini (11,27), B. Biasuzzi (2)

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TL;DR

This study investigates the super-orbital variability of the gamma-ray binary LS I +61°303 at TeV energies over four years, revealing a long-term modulation in VHE flux consistent with radio observations, but no clear correlation with optical disk measurements.

Contribution

It provides the first detailed analysis of super-orbital modulation in TeV gamma-ray emission from LS I +61°303 using a four-year MAGIC campaign, linking VHE variability to long-term radio cycles.

Findings

01

TeV flux shows yearly variability consistent with a 4.5-year modulation.

02

The modulation period is approximately 1610 days, matching radio long-term cycles.

03

No clear correlation between TeV emission and optical Hα flux was found.

Abstract

The gamma-ray binary LS I +61 $^{\circ}$ 303 is a well established source from centimeter radio up to very high energy (VHE; E $>$ 100 GeV). Its broadband emission shows a periodicity of $\sim$ 26.5 days, coincident with the orbital period. A longer (super-orbital) period of 1667 $\pm$ 8 days was discovered in radio and confirmed in optical and high energy (HE; E>100 MeV) gamma-ray observations. We present a four-year campaign performed by MAGIC together with archival data concentrating on a search for a long timescale signature in the VHE emission. We focus on the search for super-orbital modulation of the VHE peak and on the search for correlations between TeV emission and optical determination of the extension of the circumstellar disk. A four-year campaign has been carried out by MAGIC. The source was observed during the orbital phases when the periodic VHE outbursts have occurred…

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