Constraining models for the origin of ultra-high-energy cosmic rays with a novel combined analysis of arrival directions, spectrum, and composition data measured at the Pierre Auger Observatory
A. Abdul Halim,P. Abreu,M. Aglietta,I. Allekotte,K. Almeida Cheminant,A. Almela,R. Aloisio,J. Alvarez-Muniz,J. Ammerman Yebra,G. A. Anastasi,L. Anchordoqui,B. Andrada,S. Andringa,C. Aramo,P. R. Araujo Ferreira,E. Arnone,J. C. Arteaga Velazquez,H. Asorey,P. Assis,G. Avila,E. Avocone,A. M. Badescu,A. Bakalova,A. Balaceanu,F. Barbato,A. Bartz Mocellin,J. A. Bellido,C. Berat,M. E. Bertaina,G. Bhatta,M. Bianciotto,P. L. Biermann,V. Binet,K. Bismark,T. Bister,J. Biteau,J. Blazek,C. Bleve,J. Bluemer,M. Bohacova,D. Boncioli,C. Bonifazi,L. Bonneau Arbeletche,N. Borodai,J. Brack,P. G. Brichetto Orchera,F. L. Briechle,A. Bueno,S. Buitink,M. Buscemi,M. Buesken,A. Bwembya,K. S. Caballero-Mora,L. Caccianiga,I. Caracas,R. Caruso,A. Castellina,F. Catalani,G. Cataldi,L. Cazon,M. Cerda,J. A. Chinellato,J. Chudoba,L. Chytka,R. W. Clay,A. C. Cobos Cerutti,R. Colalillo,A. Coleman,M. R. Coluccia,R. Conceicao,A. Condorelli,G. Consolati,M. Conte,F. Convenga,D. Correia dos Santos,P. J. Costa,C. E. Covault,M. Cristinziani,C. S. Cruz Sanchez,S. Dasso,K. Daumiller,B. R. Dawson,R. M. de Almeida,J. de Jesus,S. J. de Jong,J. R. T. de Mello Neto,I. De Mitri,J. de Oliveira,D. de Oliveira Franco,F. de Palma,V. de Souza,E. De Vito,A. Del Popolo,O. Deligny,L. Deval,A. di Matteo,M. Dobre,C. Dobrigkeit,J. C. D'Olivo,L. M. Domingues Mendes,J. C. dos Anjos,R. C. dos Anjos,J. Ebr,F. Ellwanger,M. Emam,R. Engel,I. Epicoco,M. Erdmann,A. Etchegoyen,C. Evoli,H. Falcke,J. Farmer,G. Farrar,A. C. Fauth,N. Fazzini,F. Feldbusch,F. Fenu,A. Fernandes,B. Fick,J. M. Figueira,A. Filipcic,T. Fitoussi,B. Flaggs,T. Fodran,T. Fujii,A. Fuster,C. Galea,C. Galelli,B. Garcia,C. Gaudu,H. Gemmeke,F. Gesualdi,A. Gherghel-Lascu,P. L. Ghia,U. Giaccari,M. Giammarchi,J. Glombitza,F. Gobbi,F. Gollan,G. Golup,M. Gomez Berisso,P. F. Gomez Vitale,J. P. Gongora,J. M. Gonzalez,N. Gonzalez,I. Goos,D. Gora,A. Gorgi,M. Gottowik,T. D. Grubb,F. Guarino,G. P. Guedes,E. Guido,S. Hahn,P. Hamal,M. R. Hampel,P. Hansen,D. Harari,V. M. Harvey,A. Haungs,T. Hebbeker,C. Hojvat,J. R. Horandel,P. Horvath,M. Hrabovsky,T. Huege,A. Insolia,P. G. Isar,P. Janecek,J. A. Johnsen,J. Jurysek,A. Kaapa,K. H. Kampert,B. Keilhauer,A. Khakurdikar,V. V. Kizakke Covilakam,H. O. Klages,M. Kleifges,F. Knapp,N. Kunka,B. L. Lago,N. Langner,M. A. Leigui de Oliveira,Y. Lema-Capeans,V. Lenok,A. Letessier-Selvon,I. Lhenry-Yvon,D. Lo Presti,L. Lopes,L. Lu,Q. Luce,J. P. Lundquist,A. Machado Payeras,M. Majercakova,D. Mandat,B. C. Manning,P. Mantsch,S. Marafico,F. M. Mariani,A. G. Mariazzi,I. C. Maris,G. Marsella,D. Martello,S. Martinelli,O. Martinez Bravo,M. A. Martins,M. Mastrodicasa,H. J. Mathes,J. Matthews,G. Matthiae,E. Mayotte,S. Mayotte,P. O. Mazur,G. Medina-Tanco,J. Meinert,D. Melo,A. Menshikov,C. Merx,S. Michal,M. I. Micheletti,L. Miramonti,S. Mollerach,F. Montanet,L. Morejon,C. Morello,A. L. Muller,K. Mulrey,R. Mussa,M. Muzio,W. M. Namasaka,A. Nasr-Esfahani,L. Nellen,G. Nicora,M. Niculescu-Oglinzanu,M. Niechciol,D. Nitz,D. Nosek,V. Novotny,L. Nozka,A. Nucita,L. A. Nunez,C. Oliveira,M. Palatka,J. Pallotta,G. Parente,J. Pawlowsky,M. Pech,J. Pekala,R. Pelayo,L. A. S. Pereira,E. E. Pereira Martins,J. Perez Armand,C. Perez Bertolli,L. Perrone,S. Petrera,C. Petrucci,T. Pierog,M. Pimenta,M. Platino,B. Pont,M. Pothast,M. Pourmohammad Shahvar,P. Privitera,M. Prouza,A. Puyleart,S. Querchfeld,J. Rautenberg,D. Ravignani,M. Reininghaus,J. Ridky,F. Riehn,M. Risse,V. Rizi,W. Rodrigues de Carvalho,E. Rodriguez,J. Rodriguez Rojo,M. J. Roncoroni,S. Rossoni,M. Roth,E. Roulet,A. C. Rovero,P. Ruehl,A. Saftoiu,M. Saharan,F. Salamida,H. Salazar,G. Salina,J. D. Sanabria Gomez,F. Sanchez,E. M. Santos,E. Santos,F. Sarazin,R. Sarmento,R. Sato,P. Savina,C. M. Schaefer,V. Scherini,H. Schieler,M. Schimassek,M. Schimp,F. Schlueter,D. Schmidt,O. Scholten,H. Schoorlemmer,P. Schovanek,F. G. Schroeder,J. Schulte,T. Schulz,S. J. Sciutto,M. Scornavacche,A. Segreto,S. Sehgal,S. U. Shivashankara,G. Sigl,G. Silli,O. Sima,F. Simon,R. Smau,R. Smida,P. Sommers,J. F. Soriano,R. Squartini,M. Stadelmaier,D. Stanca,S. Stanic,J. Stasielak,P. Stassi,M. Straub,A. Streich,M. Suarez-Duran,T. Suomijarvi,A. D. Supanitsky,Z. Svozilikova,Z. Szadkowski,A. Tapia,C. Taricco,C. Timmermans,O. Tkachenko,P. Tobiska,C. J. Todero Peixoto,B. Tome,Z. Torres,A. Travaini,P. Travnicek,C. Trimarelli,M. Tueros,M. Unger,L. Vaclavek,M. Vacula,J. F. Valdes Galicia,L. Valore,E. Varela,A. Vasquez-Ramirez,D. Veberic,C. Ventura,I. D. Vergara Quispe,V. Verzi,J. Vicha,J. Vink,J. Vlastimil,S. Vorobiov,C. Watanabe,A. A. Watson,A. Weindl,L. Wiencke,H. Wilczynski,D. Wittkowski,B. Wundheiler,B. Yue,A. Yushkov,O. Zapparrata,E. Zas,D. Zavrtanik,M. Zavrtanik
JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS(2024)
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摘要
The combined fit of the measured energy spectrum and shower maximum depth distributions of ultra-high-energy cosmic rays is known to constrain the parameters of astrophysical models with homogeneous source distributions. Studies of the distribution of the cosmic-ray arrival directions show a better agreement with models in which a fraction of the flux is non-isotropic and associated with the nearby radio galaxy Centaurus A or with catalogs such as that of starburst galaxies. Here, we present a novel combination of both analyses by a simultaneous fit of arrival directions, energy spectrum, and composition data measured at the Pierre Auger Observatory. The model takes into account a rigidity-dependent magnetic field blurring and an energy-dependent evolution of the catalog contribution shaped by interactions during propagation. We find that a model containing a flux contribution from the starburst galaxy catalog of around 20% at 40 EeV with a magnetic field blurring of around 20 degrees for a rigidity of 10EV provides a fair simultaneous description of all three observables. The starburst galaxy model is favored with a significance of 4.5 sigma (considering experimental systematic effects) compared to a reference model with only homogeneously distributed background sources. By investigating a scenario with Centaurus A as a single source in combination with the homogeneous background, we confirm that this region of the sky provides the dominant contribution to the observed anisotropy signal. Models containing a catalog of jetted active galactic nuclei whose flux scales with the gamma-ray emission are, however, disfavored as they cannot adequately describe the measured arrival directions.
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ultra high energy cosmic rays,cosmic ray experiments,active galactic nuclei
