Testing effects of Lorentz invariance violation in the propagation of astroparticles with the Pierre Auger Observatory

P. Abreu; M. Aglietta; J. M. Albury; I. Allekotte; K. Almeida cheminant; A. Almela; J. Alvarez-Muniz; R. Alves batista; G. A. Anastasi; L. Anchordoqui; B. Andrada; S. Andringa; C. Aramo; P. R. Araújo ferreira; E. Arnone; J. C. Arteaga velázquez; H. Asorey; P. Assis; G. Avila; A. M. Badescu; A. Bakalova; A. Balaceanu; F. Barbato; J. A. Bellido; C. Berat; M. E. Bertaina; X. Bertou; G. Bhatta; P. L. Biermann; V. Binet; K. Bismark; T. Bister; J. Biteau; J. Blazek; C. Bleve; J. Blümer; M. Boháčová; 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; M. Büsken; K. S. Caballero-Mora; L. Caccianiga; F. Canfora; 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. Concei o; 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 jesús; 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; M. Del río; O. Deligny; L. Deval; A. Di matteo; M. Dobre; C. Dobrigkeit; J. C. D'olivo; L. M. Domingues mendes; 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. Filipčič; T. Fitoussi; T. Fodran; T. Fujii; A. Fuster; C. Galea; C. Galelli; B. García; A. L. Garcia vegas; H. Gemmeke; F. Gesualdi; A. Gherghel-Lascu; P. L. Ghia; U. Giaccari; M. Giammarchi; J. Glombitza; F. Gobbi; F. Gollan; G. Golup; M. Gómez berisso; P. F. Gómez vitale; J. P. Gongora; J. M. González; N. González; I. Goos; D. Góra; 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. Hörandel; P. Horvath; M. Hrabovský; T. Huege; A. Insolia; P. G. Isar; P. Janecek; J. A. Johnsen; J. Jurysek; A. Kp; K. H. Kampert; N. Karastathis; B. Keilhauer; A. Khakurdikar; V. V. Kizakke covilakam; H. O. Klages; M. Kleifges; J. Kleinfeller; F. Knapp; 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. López; L. Lu; Q. Luce; J. P. Lundquist; A. Machado payeras; G. Mancarella; D. Mandat; B. C. Manning; J. Manshanden; P. Mantsch; S. Marafico; F. M. Mariani; A. G. Mariazzi; I. C. Mariş; G. Marsella; D. Martello; S. Martinelli; O. Martínez bravo; M. Mastrodicasa; H. J. Mathes; J. Matthews; G. Matthiae; E. Mayotte; S. Mayotte; P. O. Mazur; G. Medina-Tanco; D. Melo; A. Menshikov; S. Michal; M. I. Micheletti; L. Miramonti; S. Mollerach; F. Montanet; L. Morejon; C. Morello; M. Mostafá; A. L. Müller; M. A. 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. Nožka; A. Nucita; L. A. Núnez; C. Oliveira; M. Palatka; J. Pallotta; P. Papenbreer; G. Parente; A. Parra; J. Pawlowsky; M. Pech; J. Pkala; R. Pelayo; J. Pena-Rodriguez; E. E. Pereira martins; J. Perez armand; C. Pérez bertolli; M. Perlin; L. Perrone; S. Petrera; C. Petrucci; 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; 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. Sánchez; E. M. Santos; E. Santos; F. Sarazin; R. Sarmento; C. Sarmiento-Cano; R. Sato; P. Savina; C. M. Sch fer; V. Scherini; H. Schieler; M. Schimassek; M. Schimp; F. Schlüter; D. Schmidt; O. Scholten; H. Schoorlemmer; P. Schovánek; F. G. Schröder; J. Schulte; T. Schulz; S. J. Sciutto; M. Scornavacche; A. Segreto; S. Sehgal; R. C. Shellard; G. Sigl; G. Silli; O. Sima; R. Smau; R. Šmída; P. Sommers; J. F. Soriano; R. Squartini; M. Stadelmaier; D. Stanca; S. Stanič; J. Stasielak; P. Stassi; A. Streich; M. Suárez-Durán; T. Sudholz; T. Suomij rvi; A. D. Supanitsky; Z. Szadkowski; A. Tapia; C. Taricco; C. Timmermans; O. Tkachenko; P. Tobiska; C. J. Todero peixoto; B. Tomé; Z. Torr s; A. Travaini; P. Travnicek; C. Trimarelli; M. Tueros; R. Ulrich; M. Unger; L. Vaclavek; M. Vacula; J. F. Valdés galicia; L. Valore; E. Varela; A. Vásquez-Ramírez; D. Veberič; C. Ventura; I. D. Vergara quispe; V. Verzi; J. Vicha; J. Vink; S. Vorobiov; H. Wahlberg; C. Watanabe; A. A. Watson; A. Weindl; L. Wiencke; H. Wilczyński; D. Wittkowski; B. Wundheiler; A. Yushkov; O. Zapparrata; E. Zas; D. Zavrtanik; M. Zavrtanik; L. Zehrer

doi:10.1088/1475-7516/2022/01/023

Testing effects of Lorentz invariance violation in the propagation of astroparticles with the Pierre Auger Observatory

P. Abreu, M. Aglietta, J. M. Albury, I. Allekotte, K. Almeida cheminant, A. Almela, J. Alvarez-Muniz, R. Alves batista, G. A. Anastasi, L. Anchordoqui, B. Andrada, S. Andringa, C. Aramo, P. R. Araújo ferreira, E. Arnone, J. C. Arteaga velázquez, H. Asorey, P. Assis, G. Avila, A. M. BadescuA. Bakalova, A. Balaceanu, F. Barbato, J. A. Bellido, C. Berat, M. E. Bertaina, X. Bertou, G. Bhatta, P. L. Biermann, V. Binet, K. Bismark, T. Bister, J. Biteau, J. Blazek, C. Bleve, J. Blümer, M. Boháčová, 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, M. Büsken, K. S. Caballero-Mora, L. Caccianiga, F. Canfora, 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. Concei o, 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 jesús, 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, M. Del río, O. Deligny, L. Deval, A. Di matteo, M. Dobre, C. Dobrigkeit, J. C. D'olivo, L. M. Domingues mendes, 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. Filipčič, T. Fitoussi, T. Fodran, T. Fujii, A. Fuster, C. Galea, C. Galelli, B. García, A. L. Garcia vegas, H. Gemmeke, F. Gesualdi, A. Gherghel-Lascu, P. L. Ghia, U. Giaccari, M. Giammarchi, J. Glombitza, F. Gobbi, F. Gollan, G. Golup, M. Gómez berisso, P. F. Gómez vitale, J. P. Gongora, J. M. González, N. González, I. Goos, D. Góra, 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. Hörandel, P. Horvath, M. Hrabovský, T. Huege, A. Insolia, P. G. Isar, P. Janecek, J. A. Johnsen, J. Jurysek, A. Kp, K. H. Kampert, N. Karastathis, B. Keilhauer, A. Khakurdikar, V. V. Kizakke covilakam, H. O. Klages, M. Kleifges, J. Kleinfeller, F. Knapp, 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. López, L. Lu, Q. Luce, J. P. Lundquist, A. Machado payeras, G. Mancarella, D. Mandat, B. C. Manning, J. Manshanden, P. Mantsch, S. Marafico, F. M. Mariani, A. G. Mariazzi, I. C. Mariş, G. Marsella, D. Martello, S. Martinelli, O. Martínez bravo, M. Mastrodicasa, H. J. Mathes, J. Matthews, G. Matthiae, E. Mayotte, S. Mayotte, P. O. Mazur, G. Medina-Tanco, D. Melo, A. Menshikov, S. Michal, M. I. Micheletti, L. Miramonti, S. Mollerach, F. Montanet, L. Morejon, C. Morello, M. Mostafá, A. L. Müller, M. A. 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. Nožka, A. Nucita, L. A. Núnez, C. Oliveira, M. Palatka, J. Pallotta, P. Papenbreer, G. Parente, A. Parra, J. Pawlowsky, M. Pech, J. Pkala, R. Pelayo, J. Pena-Rodriguez, E. E. Pereira martins, J. Perez armand, C. Pérez bertolli, M. Perlin, L. Perrone, S. Petrera, C. Petrucci, 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, 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. Sánchez, E. M. Santos, E. Santos, F. Sarazin, R. Sarmento, C. Sarmiento-Cano, R. Sato, P. Savina, C. M. Sch fer, V. Scherini, H. Schieler, M. Schimassek, M. Schimp, F. Schlüter, D. Schmidt, O. Scholten, H. Schoorlemmer, P. Schovánek, F. G. Schröder, J. Schulte, T. Schulz, S. J. Sciutto, M. Scornavacche, A. Segreto, S. Sehgal, R. C. Shellard, G. Sigl, G. Silli, O. Sima, R. Smau, R. Šmída, P. Sommers, J. F. Soriano, R. Squartini, M. Stadelmaier, D. Stanca, S. Stanič, J. Stasielak, P. Stassi, A. Streich, M. Suárez-Durán, T. Sudholz, T. Suomij rvi, A. D. Supanitsky, Z. Szadkowski, A. Tapia, C. Taricco, C. Timmermans, O. Tkachenko, P. Tobiska, C. J. Todero peixoto, B. Tomé, Z. Torr s, A. Travaini, P. Travnicek, C. Trimarelli, M. Tueros, R. Ulrich, M. Unger, L. Vaclavek, M. Vacula, J. F. Valdés galicia, L. Valore, E. Varela, A. Vásquez-Ramírez, D. Veberič, C. Ventura, I. D. Vergara quispe, V. Verzi, J. Vicha, J. Vink, S. Vorobiov, H. Wahlberg, C. Watanabe, A. A. Watson, A. Weindl, L. Wiencke, H. Wilczyński, D. Wittkowski, B. Wundheiler, A. Yushkov, O. Zapparrata, E. Zas, D. Zavrtanik, M. Zavrtanik, L. Zehrer

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11 Citas (Scopus)

Resumen

Lorentz invariance violation (LIV) is often described by dispersion relations of the form E i2 = m i2+p i2+δi,n E 2+n with delta different based on particle type i, with energy E, momentum p and rest mass m. Kinematics and energy thresholds of interactions are modified once the LIV terms become comparable to the squared masses of the particles involved. Thus, the strongest constraints on the LIV coefficients δi,n tend to come from the highest energies. At sufficiently high energies, photons produced by cosmic ray interactions as they propagate through the Universe could be subluminal and unattenuated over cosmological distances. Cosmic ray interactions can also be modified and lead to detectable fingerprints in the energy spectrum and mass composition observed on Earth. The data collected at the Pierre Auger Observatory are therefore possibly sensitive to both the electromagnetic and hadronic sectors of LIV. In this article, we explore these two sectors by comparing the energy spectrum and the composition of cosmic rays and the upper limits on the photon flux from the Pierre Auger Observatory with simulations including LIV. Constraints on LIV parameters depend strongly on the mass composition of cosmic rays at the highest energies. For the electromagnetic sector, while no constraints can be obtained in the absence of protons beyond 1019 eV, we obtain δγ,0 > -10-21, δγ,1 > -10-40 eV-1 and δγ,2 > -10-58 eV-2 in the case of a subdominant proton component up to 1020 eV. For the hadronic sector, we study the best description of the data as a function of LIV coefficients and we derive constraints in the hadronic sector such as δhad,0 < 10-19, δhad,1 < 10-38 eV-1 and δhad,2 < 10-57 eV-2 at 5σ CL.

Idioma original	Inglés
Número de artículo	023
Publicación	Journal of Cosmology and Astroparticle Physics
Volumen	2022
N.º	1
DOI	https://doi.org/10.1088/1475-7516/2022/01/023
Estado	Publicada - ene. 2022
Publicado de forma externa	Sí

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Abreu, P., Aglietta, M., Albury, J. M., Allekotte, I., Almeida cheminant, K., Almela, A., Alvarez-Muniz, J., Alves batista, R., Anastasi, G. A., Anchordoqui, L., Andrada, B., Andringa, S., Aramo, C., Araújo ferreira, P. R., Arnone, E., Arteaga velázquez, J. C., Asorey, H., Assis, P., Avila, G., ... Zehrer, L. (2022). Testing effects of Lorentz invariance violation in the propagation of astroparticles with the Pierre Auger Observatory. Journal of Cosmology and Astroparticle Physics, 2022(1), Artículo 023. https://doi.org/10.1088/1475-7516/2022/01/023

@article{88a22139e952414ab7f117e4bdcb9719,

title = "Testing effects of Lorentz invariance violation in the propagation of astroparticles with the Pierre Auger Observatory",

abstract = "Lorentz invariance violation (LIV) is often described by dispersion relations of the form E i2 = m i2+p i2+δi,n E 2+n with delta different based on particle type i, with energy E, momentum p and rest mass m. Kinematics and energy thresholds of interactions are modified once the LIV terms become comparable to the squared masses of the particles involved. Thus, the strongest constraints on the LIV coefficients δi,n tend to come from the highest energies. At sufficiently high energies, photons produced by cosmic ray interactions as they propagate through the Universe could be subluminal and unattenuated over cosmological distances. Cosmic ray interactions can also be modified and lead to detectable fingerprints in the energy spectrum and mass composition observed on Earth. The data collected at the Pierre Auger Observatory are therefore possibly sensitive to both the electromagnetic and hadronic sectors of LIV. In this article, we explore these two sectors by comparing the energy spectrum and the composition of cosmic rays and the upper limits on the photon flux from the Pierre Auger Observatory with simulations including LIV. Constraints on LIV parameters depend strongly on the mass composition of cosmic rays at the highest energies. For the electromagnetic sector, while no constraints can be obtained in the absence of protons beyond 1019 eV, we obtain δγ,0 > -10-21, δγ,1 > -10-40 eV-1 and δγ,2 > -10-58 eV-2 in the case of a subdominant proton component up to 1020 eV. For the hadronic sector, we study the best description of the data as a function of LIV coefficients and we derive constraints in the hadronic sector such as δhad,0 < 10-19, δhad,1 < 10-38 eV-1 and δhad,2 < 10-57 eV-2 at 5σ CL.",

author = "P. Abreu and M. Aglietta and Albury, {J. M.} and I. Allekotte and {Almeida cheminant}, K. and A. Almela and J. Alvarez-Muniz and {Alves batista}, R. and Anastasi, {G. A.} and L. Anchordoqui and B. Andrada and S. Andringa and C. Aramo and {Ara{\'u}jo ferreira}, {P. R.} and E. Arnone and {Arteaga vel{\'a}zquez}, {J. C.} and H. Asorey and P. Assis and G. Avila and Badescu, {A. M.} and A. Bakalova and A. Balaceanu and F. Barbato and Bellido, {J. A.} and C. Berat and Bertaina, {M. E.} and X. Bertou and G. Bhatta and Biermann, {P. L.} and V. Binet and K. Bismark and T. Bister and J. Biteau and J. Blazek and C. Bleve and J. Bl{\"u}mer and M. Boh{\'a}{\v c}ov{\'a} and D. Boncioli and C. Bonifazi and {Bonneau arbeletche}, L. and N. Borodai and Botti, {A. M.} and J. Brack and T. Bretz and {Brichetto orchera}, {P. G.} and Briechle, {F. L.} and P. Buchholz and A. Bueno and S. Buitink and M. Buscemi and M. B{\"u}sken and Caballero-Mora, {K. S.} and L. Caccianiga and F. Canfora and I. Caracas and R. Caruso and A. Castellina and F. Catalani and G. Cataldi and L. Cazon and M. Cerda and Chinellato, {J. A.} and J. Chudoba and L. Chytka and Clay, {R. W.} and {Cobos cerutti}, {A. C.} and R. Colalillo and A. Coleman and Coluccia, {M. R.} and {Concei o}, R. and A. Condorelli and G. Consolati and F. Contreras and F. Convenga and {Correia dos santos}, D. and Covault, {C. E.} and S. Dasso and K. Daumiller and Dawson, {B. R.} and Day, {J. A.} and {De almeida}, {R. M.} and {De jes{\'u}s}, J. and {De jong}, {S. J.} and {De mello neto}, {J. R.T.} and {De mitri}, I. and {De oliveira}, J. and {De oliveira franco}, D. and {De palma}, F. and {De souza}, V. and {De vito}, E. and {Del popolo}, A. and {Del r{\'i}o}, M. and O. Deligny and L. Deval and {Di matteo}, A. and M. Dobre and C. Dobrigkeit and D'olivo, {J. C.} and {Domingues mendes}, {L. M.} and {Dos anjos}, {R. C.} and Dova, {M. T.} and J. Ebr and R. Engel and I. Epicoco and M. Erdmann and Escobar, {C. O.} and A. Etchegoyen and H. Falcke and J. Farmer and G. Farrar and Fauth, {A. C.} and N. Fazzini and F. Feldbusch and F. Fenu and B. Fick and Figueira, {J. M.} and A. Filip{\v c}i{\v c} and T. Fitoussi and T. Fodran and T. Fujii and A. Fuster and C. Galea and C. Galelli and B. Garc{\'i}a and {Garcia vegas}, {A. L.} and H. Gemmeke and F. Gesualdi and A. Gherghel-Lascu and Ghia, {P. L.} and U. Giaccari and M. Giammarchi and J. Glombitza and F. Gobbi and F. Gollan and G. Golup and {G{\'o}mez berisso}, M. and {G{\'o}mez vitale}, {P. F.} and Gongora, {J. P.} and Gonz{\'a}lez, {J. M.} and N. Gonz{\'a}lez and I. Goos and D. G{\'o}ra and A. Gorgi and M. Gottowik and Grubb, {T. D.} and F. Guarino and Guedes, {G. P.} and E. Guido and S. Hahn and P. Hamal and Hampel, {M. R.} and P. Hansen and D. Harari and Harvey, {V. M.} and A. Haungs and T. Hebbeker and D. Heck and Hill, {G. C.} and C. Hojvat and H{\"o}randel, {J. R.} and P. Horvath and M. Hrabovsk{\'y} and T. Huege and A. Insolia and Isar, {P. G.} and P. Janecek and Johnsen, {J. A.} and J. Jurysek and A. Kp and Kampert, {K. H.} and N. Karastathis and B. Keilhauer and A. Khakurdikar and {Kizakke covilakam}, {V. V.} and Klages, {H. O.} and M. Kleifges and J. Kleinfeller and F. Knapp and N. Kunka and Lago, {B. L.} and Lang, {R. G.} and N. Langner and {Leigui de oliveira}, {M. A.} and V. Lenok and A. Letessier-Selvon and I. Lhenry-Yvon and {Lo presti}, D. and L. Lopes and R. L{\'o}pez and L. Lu and Q. Luce and Lundquist, {J. P.} and {Machado payeras}, A. and G. Mancarella and D. Mandat and Manning, {B. C.} and J. Manshanden and P. Mantsch and S. Marafico and Mariani, {F. M.} and Mariazzi, {A. G.} and Mari{\c s}, {I. C.} and G. Marsella and D. Martello and S. Martinelli and {Mart{\'i}nez bravo}, O. and M. Mastrodicasa and Mathes, {H. J.} and J. Matthews and G. Matthiae and E. Mayotte and S. Mayotte and Mazur, {P. O.} and G. Medina-Tanco and D. Melo and A. Menshikov and S. Michal and Micheletti, {M. I.} and L. Miramonti and S. Mollerach and F. Montanet and L. Morejon and C. Morello and M. Mostaf{\'a} and M{\"u}ller, {A. L.} and Muller, {M. A.} and K. Mulrey and R. Mussa and M. Muzio and Namasaka, {W. M.} and A. Nasr-Esfahani and L. Nellen and G. Nicora and M. Niculescu-Oglinzanu and M. Niechciol and D. Nitz and D. Nosek and V. Novotny and L. No{\v z}ka and A. Nucita and N{\'u}nez, {L. A.} and C. Oliveira and M. Palatka and J. Pallotta and P. Papenbreer and G. Parente and A. Parra and J. Pawlowsky and M. Pech and J. Pkala and R. Pelayo and J. Pena-Rodriguez and {Pereira martins}, {E. E.} and {Perez armand}, J. and {P{\'e}rez bertolli}, C. and M. Perlin and L. Perrone and S. Petrera and C. Petrucci and T. Pierog and M. Pimenta and V. Pirronello and M. Platino and B. Pont and M. Pothast and P. Privitera and M. Prouza and A. Puyleart and S. Querchfeld and J. Rautenberg and D. Ravignani and M. Reininghaus and J. Ridky and F. Riehn and M. Risse and V. Rizi and {Rodrigues de carvalho}, W. and {Rodriguez rojo}, J. and Roncoroni, {M. J.} and S. Rossoni and M. Roth and E. Roulet and Rovero, {A. C.} and P. Ruehl and A. Saftoiu and M. Saharan and F. Salamida and H. Salazar and G. Salina and {Sanabria gomez}, {J. D.} and F. S{\'a}nchez and Santos, {E. M.} and E. Santos and F. Sarazin and R. Sarmento and C. Sarmiento-Cano and R. Sato and P. Savina and {Sch fer}, {C. M.} and V. Scherini and H. Schieler and M. Schimassek and M. Schimp and F. Schl{\"u}ter and D. Schmidt and O. Scholten and H. Schoorlemmer and P. Schov{\'a}nek and Schr{\"o}der, {F. G.} and J. Schulte and T. Schulz and Sciutto, {S. J.} and M. Scornavacche and A. Segreto and S. Sehgal and Shellard, {R. C.} and G. Sigl and G. Silli and O. Sima and R. Smau and R. {\v S}m{\'i}da and P. Sommers and Soriano, {J. F.} and R. Squartini and M. Stadelmaier and D. Stanca and S. Stani{\v c} and J. Stasielak and P. Stassi and A. Streich and M. Su{\'a}rez-Dur{\'a}n and T. Sudholz and {Suomij rvi}, T. and Supanitsky, {A. D.} and Z. Szadkowski and A. Tapia and C. Taricco and C. Timmermans and O. Tkachenko and P. Tobiska and {Todero peixoto}, {C. J.} and B. Tom{\'e} and {Torr s}, Z. and A. Travaini and P. Travnicek and C. Trimarelli and M. Tueros and R. Ulrich and M. Unger and L. Vaclavek and M. Vacula and {Vald{\'e}s galicia}, {J. F.} and L. Valore and E. Varela and A. V{\'a}squez-Ram{\'i}rez and D. Veberi{\v c} and C. Ventura and {Vergara quispe}, {I. D.} and V. Verzi and J. Vicha and J. Vink and S. Vorobiov and H. Wahlberg and C. Watanabe and Watson, {A. A.} and A. Weindl and L. Wiencke and H. Wilczy{\'n}ski and D. Wittkowski and B. Wundheiler and A. Yushkov and O. Zapparrata and E. Zas and D. Zavrtanik and M. Zavrtanik and L. Zehrer",

note = "Publisher Copyright: {\textcopyright} 2022 The Author(s).",

year = "2022",

month = jan,

doi = "10.1088/1475-7516/2022/01/023",

language = "Ingl{\'e}s",

volume = "2022",

journal = "Journal of Cosmology and Astroparticle Physics",

issn = "1475-7516",

number = "1",

}

Abreu, P, Aglietta, M, Albury, JM, Allekotte, I, Almeida cheminant, K, Almela, A, Alvarez-Muniz, J, Alves batista, R, Anastasi, GA, Anchordoqui, L, Andrada, B, Andringa, S, Aramo, C, Araújo ferreira, PR, Arnone, E, Arteaga velázquez, JC, Asorey, H, Assis, P, Avila, G, Badescu, AM, Bakalova, A, Balaceanu, A, Barbato, F, Bellido, JA, Berat, C, Bertaina, ME, Bertou, X, Bhatta, G, Biermann, PL, Binet, V, Bismark, K, Bister, T, Biteau, J, Blazek, J, Bleve, C, Blümer, J, Boháčová, M, Boncioli, D, Bonifazi, C, Bonneau arbeletche, L, Borodai, N, Botti, AM, Brack, J, Bretz, T, Brichetto orchera, PG, Briechle, FL, Buchholz, P, Bueno, A, Buitink, S, Buscemi, M, Büsken, M, Caballero-Mora, KS, Caccianiga, L, Canfora, F, Caracas, I, Caruso, R, Castellina, A, Catalani, F, Cataldi, G, Cazon, L, Cerda, M, Chinellato, JA, Chudoba, J, Chytka, L, Clay, RW, Cobos cerutti, AC, Colalillo, R, Coleman, A, Coluccia, MR, Concei o, R, Condorelli, A, Consolati, G, Contreras, F, Convenga, F, Correia dos santos, D, Covault, CE, Dasso, S, Daumiller, K, Dawson, BR, Day, JA, De almeida, RM, De jesús, J, De jong, SJ, De mello neto, JRT, De mitri, I, De oliveira, J, De oliveira franco, D, De palma, F, De souza, V, De vito, E, Del popolo, A, Del río, M, Deligny, O, Deval, L, Di matteo, A, Dobre, M, Dobrigkeit, C, D'olivo, JC, Domingues mendes, LM, Dos anjos, RC, Dova, MT, Ebr, J, Engel, R, Epicoco, I, Erdmann, M, Escobar, CO, Etchegoyen, A, Falcke, H, Farmer, J, Farrar, G, Fauth, AC, Fazzini, N, Feldbusch, F, Fenu, F, Fick, B, Figueira, JM, Filipčič, A, Fitoussi, T, Fodran, T, Fujii, T, Fuster, A, Galea, C, Galelli, C, García, B, Garcia vegas, AL, Gemmeke, H, Gesualdi, F, Gherghel-Lascu, A, Ghia, PL, Giaccari, U, Giammarchi, M, Glombitza, J, Gobbi, F, Gollan, F, Golup, G, Gómez berisso, M, Gómez vitale, PF, Gongora, JP, González, JM, González, N, Goos, I, Góra, D, Gorgi, A, Gottowik, M, Grubb, TD, Guarino, F, Guedes, GP, Guido, E, Hahn, S, Hamal, P, Hampel, MR, Hansen, P, Harari, D, Harvey, VM, Haungs, A, Hebbeker, T, Heck, D, Hill, GC, Hojvat, C, Hörandel, JR, Horvath, P, Hrabovský, M, Huege, T, Insolia, A, Isar, PG, Janecek, P, Johnsen, JA, Jurysek, J, Kp, A, Kampert, KH, Karastathis, N, Keilhauer, B, Khakurdikar, A, Kizakke covilakam, VV, Klages, HO, Kleifges, M, Kleinfeller, J, Knapp, F, Kunka, N, Lago, BL, Lang, RG, Langner, N, Leigui de oliveira, MA, Lenok, V, Letessier-Selvon, A, Lhenry-Yvon, I, Lo presti, D, Lopes, L, López, R, Lu, L, Luce, Q, Lundquist, JP, Machado payeras, A, Mancarella, G, Mandat, D, Manning, BC, Manshanden, J, Mantsch, P, Marafico, S, Mariani, FM, Mariazzi, AG, Mariş, IC, Marsella, G, Martello, D, Martinelli, S, Martínez bravo, O, Mastrodicasa, M, Mathes, HJ, Matthews, J, Matthiae, G, Mayotte, E, Mayotte, S, Mazur, PO, Medina-Tanco, G, Melo, D, Menshikov, A, Michal, S, Micheletti, MI, Miramonti, L, Mollerach, S, Montanet, F, Morejon, L, Morello, C, Mostafá, M, Müller, AL, Muller, MA, Mulrey, K, Mussa, R, Muzio, M, Namasaka, WM, Nasr-Esfahani, A, Nellen, L, Nicora, G, Niculescu-Oglinzanu, M, Niechciol, M, Nitz, D, Nosek, D, Novotny, V, Nožka, L, Nucita, A, Núnez, LA, Oliveira, C, Palatka, M, Pallotta, J, Papenbreer, P, Parente, G, Parra, A, Pawlowsky, J, Pech, M, Pkala, J, Pelayo, R, Pena-Rodriguez, J, Pereira martins, EE, Perez armand, J, Pérez bertolli, C, Perlin, M, Perrone, L, Petrera, S, Petrucci, C, Pierog, T, Pimenta, M, Pirronello, V, Platino, M, Pont, B, Pothast, M, Privitera, P, Prouza, M, Puyleart, A, Querchfeld, S, Rautenberg, J, Ravignani, D, Reininghaus, M, Ridky, J, Riehn, F, Risse, M, Rizi, V, Rodrigues de carvalho, W, Rodriguez rojo, J, Roncoroni, MJ, Rossoni, S, Roth, M, Roulet, E, Rovero, AC, Ruehl, P, Saftoiu, A, Saharan, M, Salamida, F, Salazar, H, Salina, G, Sanabria gomez, JD, Sánchez, F, Santos, EM, Santos, E, Sarazin, F, Sarmento, R, Sarmiento-Cano, C, Sato, R, Savina, P, Sch fer, CM, Scherini, V, Schieler, H, Schimassek, M, Schimp, M, Schlüter, F, Schmidt, D, Scholten, O, Schoorlemmer, H, Schovánek, P, Schröder, FG, Schulte, J, Schulz, T, Sciutto, SJ, Scornavacche, M, Segreto, A, Sehgal, S, Shellard, RC, Sigl, G, Silli, G, Sima, O, Smau, R, Šmída, R, Sommers, P, Soriano, JF, Squartini, R, Stadelmaier, M, Stanca, D, Stanič, S, Stasielak, J, Stassi, P, Streich, A, Suárez-Durán, M, Sudholz, T, Suomij rvi, T, Supanitsky, AD, Szadkowski, Z, Tapia, A, Taricco, C, Timmermans, C, Tkachenko, O, Tobiska, P, Todero peixoto, CJ, Tomé, B, Torr s, Z, Travaini, A, Travnicek, P, Trimarelli, C, Tueros, M, Ulrich, R, Unger, M, Vaclavek, L, Vacula, M, Valdés galicia, JF, Valore, L, Varela, E, Vásquez-Ramírez, A, Veberič, D, Ventura, C, Vergara quispe, ID, Verzi, V, Vicha, J, Vink, J, Vorobiov, S, Wahlberg, H, Watanabe, C, Watson, AA, Weindl, A, Wiencke, L, Wilczyński, H, Wittkowski, D, Wundheiler, B, Yushkov, A, Zapparrata, O, Zas, E, Zavrtanik, D, Zavrtanik, M & Zehrer, L 2022, 'Testing effects of Lorentz invariance violation in the propagation of astroparticles with the Pierre Auger Observatory', Journal of Cosmology and Astroparticle Physics, vol. 2022, n.º 1, 023. https://doi.org/10.1088/1475-7516/2022/01/023

TY - JOUR

T1 - Testing effects of Lorentz invariance violation in the propagation of astroparticles with the Pierre Auger Observatory

AU - Abreu, P.

AU - Aglietta, M.

AU - Albury, J. M.

AU - Allekotte, I.

AU - Almeida cheminant, K.

AU - Almela, A.

AU - Alvarez-Muniz, J.

AU - Alves batista, R.

AU - Anastasi, G. A.

AU - Anchordoqui, L.

AU - Andrada, B.

AU - Andringa, S.

AU - Aramo, C.

AU - Araújo ferreira, P. R.

AU - Arnone, E.

AU - Arteaga velázquez, J. C.

AU - Asorey, H.

AU - Assis, P.

AU - Avila, G.

AU - Badescu, A. M.

AU - Bakalova, A.

AU - Balaceanu, A.

AU - Barbato, F.

AU - Bellido, J. A.

AU - Berat, C.

AU - Bertaina, M. E.

AU - Bertou, X.

AU - Bhatta, G.

AU - Biermann, P. L.

AU - Binet, V.

AU - Bismark, K.

AU - Bister, T.

AU - Biteau, J.

AU - Blazek, J.

AU - Bleve, C.

AU - Blümer, J.

AU - Boháčová, M.

AU - Boncioli, D.

AU - Bonifazi, C.

AU - Bonneau arbeletche, L.

AU - Borodai, N.

AU - Botti, A. M.

AU - Brack, J.

AU - Bretz, T.

AU - Brichetto orchera, P. G.

AU - Briechle, F. L.

AU - Buchholz, P.

AU - Bueno, A.

AU - Buitink, S.

AU - Buscemi, M.

AU - Büsken, M.

AU - Caballero-Mora, K. S.

AU - Caccianiga, L.

AU - Canfora, F.

AU - Caracas, I.

AU - Caruso, R.

AU - Castellina, A.

AU - Catalani, F.

AU - Cataldi, G.

AU - Cazon, L.

AU - Cerda, M.

AU - Chinellato, J. A.

AU - Chudoba, J.

AU - Chytka, L.

AU - Clay, R. W.

AU - Cobos cerutti, A. C.

AU - Colalillo, R.

AU - Coleman, A.

AU - Coluccia, M. R.

AU - Concei o, R.

AU - Condorelli, A.

AU - Consolati, G.

AU - Contreras, F.

AU - Convenga, F.

AU - Correia dos santos, D.

AU - Covault, C. E.

AU - Dasso, S.

AU - Daumiller, K.

AU - Dawson, B. R.

AU - Day, J. A.

AU - De almeida, R. M.

AU - De jesús, J.

AU - De jong, S. J.

AU - De mello neto, J. R.T.

AU - De mitri, I.

AU - De oliveira, J.

AU - De oliveira franco, D.

AU - De palma, F.

AU - De souza, V.

AU - De vito, E.

AU - Del popolo, A.

AU - Del río, M.

AU - Deligny, O.

AU - Deval, L.

AU - Di matteo, A.

AU - Dobre, M.

AU - Dobrigkeit, C.

AU - D'olivo, J. C.

AU - Domingues mendes, L. M.

AU - Dos anjos, R. C.

AU - Dova, M. T.

AU - Ebr, J.

AU - Engel, R.

AU - Epicoco, I.

AU - Erdmann, M.

AU - Escobar, C. O.

AU - Etchegoyen, A.

AU - Falcke, H.

AU - Farmer, J.

AU - Farrar, G.

AU - Fauth, A. C.

AU - Fazzini, N.

AU - Feldbusch, F.

AU - Fenu, F.

AU - Fick, B.

AU - Figueira, J. M.

AU - Filipčič, A.

AU - Fitoussi, T.

AU - Fodran, T.

AU - Fujii, T.

AU - Fuster, A.

AU - Galea, C.

AU - Galelli, C.

AU - García, B.

AU - Garcia vegas, A. L.

AU - Gemmeke, H.

AU - Gesualdi, F.

AU - Gherghel-Lascu, A.

AU - Ghia, P. L.

AU - Giaccari, U.

AU - Giammarchi, M.

AU - Glombitza, J.

AU - Gobbi, F.

AU - Gollan, F.

AU - Golup, G.

AU - Gómez berisso, M.

AU - Gómez vitale, P. F.

AU - Gongora, J. P.

AU - González, J. M.

AU - González, N.

AU - Goos, I.

AU - Góra, D.

AU - Gorgi, A.

AU - Gottowik, M.

AU - Grubb, T. D.

AU - Guarino, F.

AU - Guedes, G. P.

AU - Guido, E.

AU - Hahn, S.

AU - Hamal, P.

AU - Hampel, M. R.

AU - Hansen, P.

AU - Harari, D.

AU - Harvey, V. M.

AU - Haungs, A.

AU - Hebbeker, T.

AU - Heck, D.

AU - Hill, G. C.

AU - Hojvat, C.

AU - Hörandel, J. R.

AU - Horvath, P.

AU - Hrabovský, M.

AU - Huege, T.

AU - Insolia, A.

AU - Isar, P. G.

AU - Janecek, P.

AU - Johnsen, J. A.

AU - Jurysek, J.

AU - Kp, A.

AU - Kampert, K. H.

AU - Karastathis, N.

AU - Keilhauer, B.

AU - Khakurdikar, A.

AU - Kizakke covilakam, V. V.

AU - Klages, H. O.

AU - Kleifges, M.

AU - Kleinfeller, J.

AU - Knapp, F.

AU - Kunka, N.

AU - Lago, B. L.

AU - Lang, R. G.

AU - Langner, N.

AU - Leigui de oliveira, M. A.

AU - Lenok, V.

AU - Letessier-Selvon, A.

AU - Lhenry-Yvon, I.

AU - Lo presti, D.

AU - Lopes, L.

AU - López, R.

AU - Lu, L.

AU - Luce, Q.

AU - Lundquist, J. P.

AU - Machado payeras, A.

AU - Mancarella, G.

AU - Mandat, D.

AU - Manning, B. C.

AU - Manshanden, J.

AU - Mantsch, P.

AU - Marafico, S.

AU - Mariani, F. M.

AU - Mariazzi, A. G.

AU - Mariş, I. C.

AU - Marsella, G.

AU - Martello, D.

AU - Martinelli, S.

AU - Martínez bravo, O.

AU - Mastrodicasa, M.

AU - Mathes, H. J.

AU - Matthews, J.

AU - Matthiae, G.

AU - Mayotte, E.

AU - Mayotte, S.

AU - Mazur, P. O.

AU - Medina-Tanco, G.

AU - Melo, D.

AU - Menshikov, A.

AU - Michal, S.

AU - Micheletti, M. I.

AU - Miramonti, L.

AU - Mollerach, S.

AU - Montanet, F.

AU - Morejon, L.

AU - Morello, C.

AU - Mostafá, M.

AU - Müller, A. L.

AU - Muller, M. A.

AU - Mulrey, K.

AU - Mussa, R.

AU - Muzio, M.

AU - Namasaka, W. M.

AU - Nasr-Esfahani, A.

AU - Nellen, L.

AU - Nicora, G.

AU - Niculescu-Oglinzanu, M.

AU - Niechciol, M.

AU - Nitz, D.

AU - Nosek, D.

AU - Novotny, V.

AU - Nožka, L.

AU - Nucita, A.

AU - Núnez, L. A.

AU - Oliveira, C.

AU - Palatka, M.

AU - Pallotta, J.

AU - Papenbreer, P.

AU - Parente, G.

AU - Parra, A.

AU - Pawlowsky, J.

AU - Pech, M.

AU - Pkala, J.

AU - Pelayo, R.

AU - Pena-Rodriguez, J.

AU - Pereira martins, E. E.

AU - Perez armand, J.

AU - Pérez bertolli, C.

AU - Perlin, M.

AU - Perrone, L.

AU - Petrera, S.

AU - Petrucci, C.

AU - Pierog, T.

AU - Pimenta, M.

AU - Pirronello, V.

AU - Platino, M.

AU - Pont, B.

AU - Pothast, M.

AU - Privitera, P.

AU - Prouza, M.

AU - Puyleart, A.

AU - Querchfeld, S.

AU - Rautenberg, J.

AU - Ravignani, D.

AU - Reininghaus, M.

AU - Ridky, J.

AU - Riehn, F.

AU - Risse, M.

AU - Rizi, V.

AU - Rodrigues de carvalho, W.

AU - Rodriguez rojo, J.

AU - Roncoroni, M. J.

AU - Rossoni, S.

AU - Roth, M.

AU - Roulet, E.

AU - Rovero, A. C.

AU - Ruehl, P.

AU - Saftoiu, A.

AU - Saharan, M.

AU - Salamida, F.

AU - Salazar, H.

AU - Salina, G.

AU - Sanabria gomez, J. D.

AU - Sánchez, F.

AU - Santos, E. M.

AU - Santos, E.

AU - Sarazin, F.

AU - Sarmento, R.

AU - Sarmiento-Cano, C.

AU - Sato, R.

AU - Savina, P.

AU - Sch fer, C. M.

AU - Scherini, V.

AU - Schieler, H.

AU - Schimassek, M.

AU - Schimp, M.

AU - Schlüter, F.

AU - Schmidt, D.

AU - Scholten, O.

AU - Schoorlemmer, H.

AU - Schovánek, P.

AU - Schröder, F. G.

AU - Schulte, J.

AU - Schulz, T.

AU - Sciutto, S. J.

AU - Scornavacche, M.

AU - Segreto, A.

AU - Sehgal, S.

AU - Shellard, R. C.

AU - Sigl, G.

AU - Silli, G.

AU - Sima, O.

AU - Smau, R.

AU - Šmída, R.

AU - Sommers, P.

AU - Soriano, J. F.

AU - Squartini, R.

AU - Stadelmaier, M.

AU - Stanca, D.

AU - Stanič, S.

AU - Stasielak, J.

AU - Stassi, P.

AU - Streich, A.

AU - Suárez-Durán, M.

AU - Sudholz, T.

AU - Suomij rvi, T.

AU - Supanitsky, A. D.

AU - Szadkowski, Z.

AU - Tapia, A.

AU - Taricco, C.

AU - Timmermans, C.

AU - Tkachenko, O.

AU - Tobiska, P.

AU - Todero peixoto, C. J.

AU - Tomé, B.

AU - Torr s, Z.

AU - Travaini, A.

AU - Travnicek, P.

AU - Trimarelli, C.

AU - Tueros, M.

AU - Ulrich, R.

AU - Unger, M.

AU - Vaclavek, L.

AU - Vacula, M.

AU - Valdés galicia, J. F.

AU - Valore, L.

AU - Varela, E.

AU - Vásquez-Ramírez, A.

AU - Veberič, D.

AU - Ventura, C.

AU - Vergara quispe, I. D.

AU - Verzi, V.

AU - Vicha, J.

AU - Vink, J.

AU - Vorobiov, S.

AU - Wahlberg, H.

AU - Watanabe, C.

AU - Watson, A. A.

AU - Weindl, A.

AU - Wiencke, L.

AU - Wilczyński, H.

AU - Wittkowski, D.

AU - Wundheiler, B.

AU - Yushkov, A.

AU - Zapparrata, O.

AU - Zas, E.

AU - Zavrtanik, D.

AU - Zavrtanik, M.

AU - Zehrer, L.

PY - 2022/1

Y1 - 2022/1

N2 - Lorentz invariance violation (LIV) is often described by dispersion relations of the form E i2 = m i2+p i2+δi,n E 2+n with delta different based on particle type i, with energy E, momentum p and rest mass m. Kinematics and energy thresholds of interactions are modified once the LIV terms become comparable to the squared masses of the particles involved. Thus, the strongest constraints on the LIV coefficients δi,n tend to come from the highest energies. At sufficiently high energies, photons produced by cosmic ray interactions as they propagate through the Universe could be subluminal and unattenuated over cosmological distances. Cosmic ray interactions can also be modified and lead to detectable fingerprints in the energy spectrum and mass composition observed on Earth. The data collected at the Pierre Auger Observatory are therefore possibly sensitive to both the electromagnetic and hadronic sectors of LIV. In this article, we explore these two sectors by comparing the energy spectrum and the composition of cosmic rays and the upper limits on the photon flux from the Pierre Auger Observatory with simulations including LIV. Constraints on LIV parameters depend strongly on the mass composition of cosmic rays at the highest energies. For the electromagnetic sector, while no constraints can be obtained in the absence of protons beyond 1019 eV, we obtain δγ,0 > -10-21, δγ,1 > -10-40 eV-1 and δγ,2 > -10-58 eV-2 in the case of a subdominant proton component up to 1020 eV. For the hadronic sector, we study the best description of the data as a function of LIV coefficients and we derive constraints in the hadronic sector such as δhad,0 < 10-19, δhad,1 < 10-38 eV-1 and δhad,2 < 10-57 eV-2 at 5σ CL.

AB - Lorentz invariance violation (LIV) is often described by dispersion relations of the form E i2 = m i2+p i2+δi,n E 2+n with delta different based on particle type i, with energy E, momentum p and rest mass m. Kinematics and energy thresholds of interactions are modified once the LIV terms become comparable to the squared masses of the particles involved. Thus, the strongest constraints on the LIV coefficients δi,n tend to come from the highest energies. At sufficiently high energies, photons produced by cosmic ray interactions as they propagate through the Universe could be subluminal and unattenuated over cosmological distances. Cosmic ray interactions can also be modified and lead to detectable fingerprints in the energy spectrum and mass composition observed on Earth. The data collected at the Pierre Auger Observatory are therefore possibly sensitive to both the electromagnetic and hadronic sectors of LIV. In this article, we explore these two sectors by comparing the energy spectrum and the composition of cosmic rays and the upper limits on the photon flux from the Pierre Auger Observatory with simulations including LIV. Constraints on LIV parameters depend strongly on the mass composition of cosmic rays at the highest energies. For the electromagnetic sector, while no constraints can be obtained in the absence of protons beyond 1019 eV, we obtain δγ,0 > -10-21, δγ,1 > -10-40 eV-1 and δγ,2 > -10-58 eV-2 in the case of a subdominant proton component up to 1020 eV. For the hadronic sector, we study the best description of the data as a function of LIV coefficients and we derive constraints in the hadronic sector such as δhad,0 < 10-19, δhad,1 < 10-38 eV-1 and δhad,2 < 10-57 eV-2 at 5σ CL.

UR - http://www.scopus.com/inward/record.url?scp=85123983900&partnerID=8YFLogxK

U2 - 10.1088/1475-7516/2022/01/023

DO - 10.1088/1475-7516/2022/01/023

M3 - Artículo

AN - SCOPUS:85123983900

SN - 1475-7516

VL - 2022

JO - Journal of Cosmology and Astroparticle Physics

JF - Journal of Cosmology and Astroparticle Physics

IS - 1

M1 - 023

ER -

Testing effects of Lorentz invariance violation in the propagation of astroparticles with the Pierre Auger Observatory

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