Multi-messenger characterization of Mrk 501 during historically low   X-ray and $\gamma$-ray activity

MAGIC collaboration: H. Abe; S. Abe; V. A. Acciari; I. Agudo; T.; Aniello; S. Ansoldi; L. A. Antonelli; A. Arbet Engels; C. Arcaro; M. Artero,; K. Asano; D. Baack; A. Babi\'c; A. Baquero; U. Barres de Almeida; J. A.; Barrio; I. Batkovi\'c; J. Baxter; J. Becerra Gonz\'alez; W. Bednarek; E.; Bernardini; M. Bernardos; A. Berti; J. Besenrieder; W. Bhattacharyya; C.; Bigongiari; A. Biland; O. Blanch; G. Bonnoli; \v{Z}. Bo\v{s}njak; I. Burelli,; G. Busetto; R. Carosi; M. Carretero-Castrillo; A. J. Castro-Tirado; G.; Ceribella; Y. Chai; A. Chilingarian; S. Cikota; E. Colombo; J. L. Contreras,; J. Cortina; S. Covino; G. D'Amico; V. D'Elia; P. Da Vela; F. Dazzi; A. De; Angelis; B. De Lotto; A. Del Popolo; M. Delfino; J. Delgado; C. Delgado; Mendez; D. Depaoli; F. Di Pierro; L. Di Venere; E. Do Souto Espi\~neira; D.; Dominis Prester; A. Donini; D. Dorner; M. Doro; D. Elsaesser; G. Emery; J.; Escudero; V. Fallah Ramazani; L. Fari\~na; A. Fattorini; L. Foffano; L. Font,; C. Fruck; S. Fukami; Y. Fukazawa; R. J. Garc\'ia L\'opez; M. Garczarczyk; S.; Gasparyan; M. Gaug; J. G. Giesbrecht Paiva; N. Giglietto; F. Giordano; P.; Gliwny; N. Godinovi\'c; R. Grau; D. Green; J. G. Green; D. Hadasch; A. Hahn,; T. Hassan; L. Heckmann; J. Herrera; D. Hrupec; M. H\"utten; R. Imazawa; T.; Inada; R. Iotov; K. Ishio; I. Jim\'enez Mart\'inez; J. Jormanainen; D.; Kerszberg; Y. Kobayashi; H. Kubo; J. Kushida; A. Lamastra; D. Lelas; F.; Leone; E. Lindfors; L. Linhoff; S. Lombardi; F. Longo; R. L\'opez-Coto; M.; L\'opez-Moya; A. L\'opez-Oramas; S. Loporchio; A. Lorini; E. Lyard; B.; Machado de Oliveira Fraga; P. Majumdar; M. Makariev; G. Maneva; N. Mang; M.; Manganaro; S. Mangano; K. Mannheim; M. Mariotti; M. Mart\'inez; A.; Mas-Aguilar; D. Mazin; S. Menchiari; S. Mender; S. Mi\'canovi\'c; D. Miceli,; T. Miener; J. M. Miranda; R. Mirzoyan; E. Molina; H. A. Mondal; A. Moralejo,; D. Morcuende; V. Moreno; T. Nakamori; C. Nanci; L. Nava; V. Neustroev; M.; Nievas Rosillo; C. Nigro; K. Nilsson; K. Nishijima; T. Njoh Ekoume; K. Noda,; S. Nozaki; Y. Ohtani; T. Oka; A. Okumura; J. Otero-Santos; S. Paiano; M.; Palatiello; D. Paneque; R. Paoletti; J. M. Paredes; L. Pavleti\'c; M. Persic,; M. Pihet; G. Pirola; F. Podobnik; P. G. Prada Moroni; E. Prandini; G.; Principe; C. Priyadarshi; W. Rhode; M. Rib\'o; J. Rico; C. Righi; A.; Rugliancich; N. Sahakyan; T. Saito; S. Sakurai; K. Satalecka; F. G. Saturni,; B. Schleicher; K. Schmidt; F. Schmuckermaier; J. L. Schubert; T. Schweizer,; J. Sitarek; V. Sliusar; D. Sobczynska; A. Spolon; A. Stamerra; J.; Stri\v{s}kovi\'c; D. Strom; M. Strzys; Y. Suda; T. Suri\'c; H. Tajima; M.; Takahashi; R. Takeishi; F. Tavecchio; P. Temnikov; K. Terauchi; T. Terzi\'c,; M. Teshima; L. Tosti; S. Truzzi; A. Tutone; S. Ubach; J. van Scherpenberg; M.; Vazquez Acosta; S. Ventura; V. Verguilov; I. Viale; C. F. Vigorito; V.; Vitale; I. Vovk; R. Walter; M. Will; C. Wunderlich; T. Yamamoto; D. Zari\'c,; Other groups; collaborations: M. Cerruti; J. A. Acosta-Pulido; G.; Apolonio; R. Bachev; M. Balokovi\'c; E. Ben\'itez; I. Bj\"orklund; V.; Bozhilov; L. F. Brown; A. Bugg; W. Carbonell; M. I. Carnerero; D. Carosati,; C. Casadio; W. Chamani; W. P. Chen; R. A. Chigladze; G. Damljanovic; K. Epps,; A. Erkenov; M. Feige; J. Finke; A. Fuentes; K. Gazeas; M. Giroletti; T. S.; Grishina; A. C. Gupta; M. A. Gurwell; E. Heidemann; D. Hiriart; W. J. Hou; T.; Hovatta; S. Ibryamov; M. D. Joner; S. G. Jorstad; J. Kania; S. Kiehlmann; G.; N. Kimeridze; E. N. Kopatskaya; M. Kopp; M. Korte; B. Kotas; S. Koyama; J. A.; Kramer; L. Kunkel; S. O. Kurtanidze; O. M. Kurtanidze; A. L\"ahteenm\"aki; J.; M. L\'opez; V. M. Larionov; E. G. Larionova; L. V. Larionova; C. Leto; C.; Lorey; R. M\'ujica; G. M. Madejski; N. Marchili; A. P. Marscher; M. Minev; A.; Modaressi; D. A. Morozova; T. Mufakharov; I. Myserlis; A. A. Nikiforova; M.; G. Nikolashvili; E. Ovcharov; M. Perri; C. M. Raiteri; A. C. S. Readhead; A.; Reimer; D. Reinhart; S. Righini; K. Rosenlehner; A. C. Sadun; S. S.; Savchenko; A. Scherbantin; L. Schneider; K. Schoch; D. Seifert; E. Semkov; L.; A. Sigua; C. Singh; P. Sola; Y. Sotnikova; M. Spencer; R. Steineke; M.; Stojanovic; A. Strigachev; M. Tornikoski; E. Traianou; A. Tramacere; Yu. V.; Troitskaya; I. S. Troitskiy; J. B. Trump; A. Tsai; A. Valcheva; A. A.; Vasilyev; F. Verrecchia; M. Villata; O. Vince; K. Vrontaki; Z. R. Weaver; E.; Zaharieva; and N. Zottmann

arXiv:2210.02547·astro-ph.HE·June 21, 2023

Multi-messenger characterization of Mrk 501 during historically low X-ray and $\gamma$-ray activity

MAGIC collaboration: H. Abe, S. Abe, V. A. Acciari, I. Agudo, T., Aniello, S. Ansoldi, L. A. Antonelli, A. Arbet Engels, C. Arcaro, M. Artero,, K. Asano, D. Baack, A. Babi\'c, A. Baquero, U. Barres de Almeida, J. A., Barrio, I. Batkovi\'c, J. Baxter, J. Becerra Gonz\'alez

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TL;DR

This study analyzes Mrk 501's low-activity broadband emission from 2017-2020 using multi-wavelength data, revealing correlations across wavebands and insights into its baseline emission and jet structure.

Contribution

It provides the first detailed characterization of Mrk 501's low-state emission and its correlation patterns, supporting leptonic and hadronic models for its baseline and variable emission.

Findings

01

Significant X-ray and VHE gamma-ray correlation supports leptonic emission models.

02

Radio lag of over 100 days indicates upstream gamma-ray emission zone.

03

Stable low-state flux suggests a standing shock as the baseline emission source.

Abstract

We study the broadband emission of Mrk 501 using multi-wavelength observations from 2017 to 2020 performed with a multitude of instruments, involving, among others, MAGIC, Fermi-LAT, NuSTAR, Swift, GASP-WEBT, and OVRO. Mrk 501 showed an extremely low broadband activity, which may help to unravel its baseline emission. Nonetheless, significant flux variations are detected at all wavebands, with the highest occurring at X-rays and very-high-energy (VHE) $γ$ -rays. A significant correlation ( $>$ 3 $σ$ ) between X-rays and VHE $γ$ -rays is measured, supporting leptonic scenarios to explain the variable parts of the emission, also during low activity. This is further supported when we extend our data from 2008 to 2020, and identify, for the first time, significant correlations between Swift-XRT and Fermi-LAT. We additionally find correlations between high-energy $γ$ -rays and…

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