Cosmic-ray acceleration and escape from supernova remnant W44 as probed   by Fermi-LAT and MAGIC

S. Abe; J. Abhir; A. Abhishek; V.A. Acciari; A. Aguasca-Cabot; I.; Agudo; T. Aniello; S. Ansoldi; L.A. Antonelli; A. Arbet Engels; C. Arcaro; K.; Asano; A. Babi'c; A. Baquero; U. Barres de Almeida; J.A. Barrio; I.; Batkovi'c; A. Bautista; J. Baxter; J. Becerra Gonz'alez; W. Bednarek; E.; Bernardini; J. Bernete; A. Berti; J. Besenrieder; C. Bigongiari; A. Biland,; O. Blanch; G. Bonnoli; \v{Z}. Bo\v{s}njak; E. Bronzini; I. Burelli; G.; Busetto; A. Campoy-Ordaz; A. Carosi; R. Carosi; M. Carretero-Castrillo; A.J.; Castro-Tirado; D. Cerasole; G. Ceribella; Y. Chai; A. Chilingarian; A.; Cifuentes; 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; R. de Menezes; A.; Del Popolo; M. Delfino; J. Delgado; C. Delgado Mendez; F. Di Pierro; D.; Dominis Prester; A. Donini; D. Dorner; M. Doro; D. Elsaesser; G. Emery; J.; Escudero; L. Fari\ na; A. Fattorini; L. Foffano; L. Font; S. Fr\"ose; Y.; Fukazawa; R.J. Garc'ia L'opez; M. Garczarczyk; S. Gasparyan; M. Gaug; J.G.; Giesbrecht Paiva; N. Giglietto; P. Gliwny; N. Godinovi'c; S.R. Gozzini; T.; Gradetzke; R. Grau; J.G. Green; P. G\"unther; D. Hadasch; A. Hahn; T. Hassan,; L. Heckmann; J. Herrera; D. Hrupec; M. H\"utten; R. Imazawa; K. Ishio; I.; Jim'enez Mart'inez; J. Jormanainen; T. Kayanoki; D. Kerszberg; G.W. Kluge; Y.; Kobayashi; P.M. Kouch; H. Kubo; J. Kushida; M. L'ainez; A. Lamastra; 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; M.; Mart'inez-Chicharro; A. Mas-Aguilar; D. Mazin; S. Menchiari; S. Mender; D.; Miceli; T. Miener; J.M. Miranda; R. Mirzoyan; M. Molero Gonz'alez; E. Molina,; H.A. Mondal; A. Moralejo; D. Morcuende; T. Nakamori; C. Nanci; L. Nava; V.; Neustroev; L. Nickel; M. Nievas Rosillo; C. Nigro; L. Nikoli'c; K. Nishijima,; T. Njoh Ekoume; K. Noda; S. Nozaki; Y. Ohtani; A. Okumura; J. Otero-Santos,; S. Paiano; M. Palatiello; D. Paneque; R. Paoletti; J.M. Paredes; M. Peresano,; 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; N.; Sahakyan; T. Saito; K. Satalecka; F.G. Saturni; B. Schleicher; K. Schmidt; F.; Schmuckermaier; J.L. Schubert; T. Schweizer; A. Sciaccaluga; G. Silvestri; J.; Sitarek; V. Sliusar; D. Sobczynska; A. Spolon; A. Stamerra; J. Striskovi'c,; D. Strom; M. Strzys; Y. Suda; S. Suutarinen; H. Tajima; M. Takahashi; R.; Takeishi; P. Temnikov; K. Terauchi; T. Terzi'c; M. Teshima; S. Truzzi; A.; Tutone; S. Ubach; J. van Scherpenberg; M. Vazquez Acosta; S. Ventura; I.; Viale; C.F. Vigorito; V. Vitale; I. Vovk; R. Walter; M. Will; C. Wunderlich,; T. Yamamoto; R. Di Tria; L. Di Venere; F. Giordano; E. Bissaldi; D. Green; G.; Morlino

arXiv:2501.03889·astro-ph.HE·January 8, 2025

Cosmic-ray acceleration and escape from supernova remnant W44 as probed by Fermi-LAT and MAGIC

S. Abe, J. Abhir, A. Abhishek, V.A. Acciari, A. Aguasca-Cabot, I., Agudo, T. Aniello, S. Ansoldi, L.A. Antonelli, A. Arbet Engels, C. Arcaro, K., Asano, A. Babi'c, A. Baquero, U. Barres de Almeida, J.A. Barrio, I., Batkovi'c, A. Bautista, J. Baxter, J. Becerra Gonz'alez

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TL;DR

This study combines Fermi-LAT and MAGIC observations to analyze cosmic-ray acceleration and escape from supernova remnant W44, proposing a new broken-shock model to explain gamma-ray emission and particle escape mechanisms.

Contribution

It introduces a detailed spatial and spectral analysis of W44 across a broad energy range and proposes a novel broken-shock model for cosmic-ray escape.

Findings

01

Maximum particle energy is around 40 GeV.

02

A small number of lower-energy particles also escape.

03

The broken-shock model explains the gamma-ray emission features.

Abstract

Context. The supernova remnant (SNR) W44 and its surroundings are a prime target for studying the acceleration of cosmic rays (CRs). Several previous studies established an extended gamma-ray emission that is set apart from the radio shell of W44. This emission is thought to originate from escaped high-energy CRs that interact with a surrounding dense molecular cloud complex. Aims. We present a detailed analysis of Fermi-LAT data with an emphasis on the spatial and spectral properties of W44 and its surroundings. We also report the results of the observations performed with the MAGIC telescopes of the northwestern region of W44. Finally, we present an interpretation model to explain the gamma-ray emission of the SNR and its surroundings. Methods. We first performed a detailed spatial analysis of 12 years of Fermi-LAT data at energies above 1 GeV, in order to exploit the better angular…

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