Extraction of the Muon Signals Recorded with the Surface Detector of the   Pierre Auger Observatory Using Recurrent Neural Networks

The Pierre Auger Collaboration; A. Aab; P. Abreu; M. Aglietta; J.M.; Albury; I. Allekotte; A. Almela; J. Alvarez-Mu\~niz; R. Alves Batista; G.A.; Anastasi; L. Anchordoqui; B. Andrada; S. Andringa; C. Aramo; P.R. Ara\'ujo; Ferreira; J. C. Arteaga Vel\'azquez; H. Asorey; P. Assis; G. Avila; A.M.; Badescu; A. Bakalova; A. Balaceanu; F. Barbato; R.J. Barreira Luz; K.H.; Becker; J.A. Bellido; C. Berat; M.E. Bertaina; X. Bertou; P.L. Biermann; T.; Bister; J. Biteau; J. Blazek; C. Bleve; M. Boh\'a\v{c}ov\'a; D. Boncioli; C.; Bonifazi; L. Bonneau Arbeletche; N. Borodai; A.M. Botti; J. Brack; T. Bretz,; P.G. Brichetto Orchera; F.L. Briechle; P. Buchholz; A. Bueno; S. Buitink; M.; Buscemi; K.S. Caballero-Mora; L. Caccianiga; F. Canfora; I. Caracas; J.M.; Carceller; R. Caruso; A. Castellina; F. Catalani; G. Cataldi; L. Cazon; M.; Cerda; J.A. Chinellato; K. Choi; J. Chudoba; L. Chytka; R.W. Clay; A.C. Cobos; Cerutti; R. Colalillo; A. Coleman; M.R. Coluccia; R. Concei\c{c}\~ao; A.; Condorelli; G. Consolati; F. Contreras; F. Convenga; D. Correia dos Santos,; C.E. Covault; S. Dasso; K. Daumiller; B.R. Dawson; J.A. Day; R.M. de Almeida,; J. de Jes\'us; S.J. de Jong; G. De Mauro; 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,; M. del R\'io; O. Deligny; A. Di Matteo; C. Dobrigkeit; J.C. D'Olivo; R.C. dos; Anjos; M.T. Dova; J. Ebr; R. Engel; I. Epicoco; M. Erdmann; C.O. Escobar; A.; Etchegoyen; H. Falcke; J. Farmer; G. Farrar; A.C. Fauth; N. Fazzini; F.; Feldbusch; F. Fenu; B. Fick; J.M. Figueira; A. Filip\v{c}i\v{c}; T. Fodran,; M.M. Freire; T. Fujii; A. Fuster; C. Galea; C. Galelli; B. Garc\'ia; A.L.; Garcia Vegas; H. Gemmeke; F. Gesualdi; A. Gherghel-Lascu; P.L. Ghia; U.; Giaccari; M. Giammarchi; M. Giller; J. Glombitza; F. Gobbi; F. Gollan; G.; Golup; M. G\'omez Berisso; P.F. G\'omez Vitale; J.P. Gongora; J.M.; Gonz\'alez; N. Gonz\'alez; I. Goos; D. G\'ora; 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; D. Heck; G.C. Hill,; C. Hojvat; J.R. H\"orandel; P. Horvath; M. Hrabovsk\'y; T. Huege; J. Hulsman,; A. Insolia; P.G. Isar; P. Janecek; J.A. Johnsen; J. Jurysek; A. K\"a\"ap\"a,; K.H. Kampert; B. Keilhauer; J. Kemp; H.O. Klages; M. Kleifges; J.; Kleinfeller; M. K\"opke; N. Kunka; B.L. Lago; R.G. Lang; N. Langner; M.A.; Leigui de Oliveira; V. Lenok; A. Letessier-Selvon; I. Lhenry-Yvon; D. Lo; Presti; L. Lopes; R. L\'opez; L. Lu; Q. Luce; A. Lucero; J.P. Lundquist; A.; Machado Payeras; G. Mancarella; D. Mandat; B.C. Manning; J. Manshanden; P.; Mantsch; S. Marafico; A.G. Mariazzi; I.C. Mari\c{s}; G. Marsella; D.; Martello; H. Martinez; O. Mart\'inez Bravo; M. Mastrodicasa; H.J. Mathes; J.; Matthews; G. Matthiae; E. Mayotte; P.O. Mazur; G. Medina-Tanco; D. Melo; A.; Menshikov; K.-D. Merenda; S. Michal; M.I. Micheletti; L. Miramonti; S.; Mollerach; F. Montanet; C. Morello; M. Mostaf\'a; A.L. M\"uller; M.A. Muller,; K. Mulrey; R. Mussa; M. Muzio; W.M. Namasaka; A. Nasr-Esfahani; L. Nellen; M.; Niculescu-Oglinzanu; M. Niechciol; D. Nitz; D. Nosek; V. Novotny; L.; No\v{z}ka; A Nucita; L.A. N\'u\~nez; M. Palatka; J. Pallotta; P. Papenbreer,; G. Parente; A. Parra; M. Pech; F. Pedreira; J. P\c{e}kala; R. Pelayo; J.; Pe\~na-Rodriguez; E.E. Pereira Martins; J. Perez Armand; C. P\'erez Bertolli,; M. Perlin; L. Perrone; S. Petrera; T. Pierog; M. Pimenta; V. Pirronello; M.; Platino; B. Pont; M. Pothast; 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; J. Rodriguez Rojo; M.J.; Roncoroni; M. Roth; E. Roulet; A.C. Rovero; P. Ruehl; S.J. Saffi; A. Saftoiu,; F. Salamida; H. Salazar; G. Salina; J.D. Sanabria Gomez; F. S\'anchez; E.M.; Santos; E. Santos; F. Sarazin; R. Sarmento; C. Sarmiento-Cano; R. Sato; P.; Savina; C.M. Sch\"afer; V. Scherini; H. Schieler; M. Schimassek; M. Schimp,; F. Schl\"uter; D. Schmidt; O. Scholten; P. Schov\'anek; F.G. Schr\"oder; S.; Schr\"oder; J. Schulte; S.J. Sciutto; M. Scornavacche; A. Segreto; S. Sehgal,; R.C. Shellard; G. Sigl; G. Silli; O. Sima; R. \v{S}m\'ida; P. Sommers; J.F.; Soriano; J. Souchard; R. Squartini; M. Stadelmaier; D. Stanca; S. Stani\v{c},; J. Stasielak; P. Stassi; A. Streich; M. Su\'arez-Dur\'an; T. Sudholz; T.; Suomij\"arvi; A.D. Supanitsky; J. \v{S}up\'ik; Z. Szadkowski; A. Taboada; A.; Tapia; C. Taricco; C. Timmermans; O. Tkachenko; P. Tobiska; C.J. Todero; Peixoto; B. Tom\'e; A. Travaini; P. Travnicek; C. Trimarelli; M. Trini; M.; Tueros; R. Ulrich; M. Unger; L. Vaclavek; M. Vacula; J.F. Vald\'es Galicia,; L. Valore; E. Varela; V. Varma K.C.; A. V\'asquez-Ram\'irez; D. Veberi\v{c},; C. Ventura; I.D. Vergara Quispe; V. Verzi; J. Vicha; J. Vink; S. Vorobiov; H.; Wahlberg; C. Watanabe; A.A. Watson; M. Weber; A. Weindl; L. Wiencke; H.; Wilczy\'nski; T. Winchen; M. Wirtz; D. Wittkowski; B. Wundheiler; A. Yushkov,; O. Zapparrata; E. Zas; D. Zavrtanik; M. Zavrtanik; L. Zehrer; A. Zepeda

arXiv:2103.11983·hep-ex·August 3, 2021

Extraction of the Muon Signals Recorded with the Surface Detector of the Pierre Auger Observatory Using Recurrent Neural Networks

The Pierre Auger Collaboration, A. Aab, P. Abreu, M. Aglietta, J.M., Albury, I. Allekotte, A. Almela, J. Alvarez-Mu\~niz, R. Alves Batista, G.A., Anastasi, L. Anchordoqui, B. Andrada, S. Andringa, C. Aramo, P.R. Ara\'ujo, Ferreira, J. C. Arteaga Vel\'azquez, H. Asorey, P. Assis

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TL;DR

This paper introduces a recurrent neural network approach to extract muon signals from surface detector data at the Pierre Auger Observatory, improving cosmic ray composition analysis.

Contribution

The novel application of recurrent neural networks enables separation of muon signals from electromagnetic components in surface detector traces.

Findings

01

Method accurately predicts muon contributions in simulated data.

02

Predictions align with established lateral distribution models.

03

Demonstrates effectiveness on real experimental data.

Abstract

The Pierre Auger Observatory, at present the largest cosmic-ray observatory ever built, is instrumented with a ground array of 1600 water-Cherenkov detectors, known as the Surface Detector (SD). The SD samples the secondary particle content (mostly photons, electrons, positrons and muons) of extensive air showers initiated by cosmic rays with energies ranging from $1 0^{17}$ eV up to more than $1 0^{20}$ eV. Measuring the independent contribution of the muon component to the total registered signal is crucial to enhance the capability of the Observatory to estimate the mass of the cosmic rays on an event-by-event basis. However, with the current design of the SD, it is difficult to straightforwardly separate the contributions of muons to the SD time traces from those of photons, electrons and positrons. In this paper, we present a method aimed at extracting the muon component of the time…

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